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List of Falcon 9 and Falcon Heavy launches

Updated: Wikipedia source

List of Falcon 9 and Falcon Heavy launches

As of November 2, 2025, rockets from the Falcon 9 family have been launched 568 times, with 565 full mission successes, two mission failures during launch, one mission failure before launch, and one partial failure. Designed and operated by SpaceX, the Falcon 9 family includes the retired versions Falcon 9 v1.0, launched five times from June 2010 to March 2013; Falcon 9 v1.1, launched 15 times from September 2013 to January 2016; and Falcon 9 v1.2 "Full Thrust" (blocks 3 and 4), launched 36 times from December 2015 to June 2018. The active "Full Thrust" variant Falcon 9 Block 5 has launched 501 times since May 2018. Falcon Heavy, a heavy-lift derivative of Falcon 9, combining a strengthened central core with two Falcon 9 first stages as side boosters has launched 11 times since February 2018.

The Falcon design features reusable first-stage boosters, which land either on a ground pad near the launch site or on a drone ship at sea. In December 2015, Falcon 9 became the first rocket to land propulsively after delivering a payload into orbit. This reusability results in significantly reduced launch costs, as the cost of the first stage constitutes the majority of the cost of a new rocket. Falcon family boosters have successfully landed 527 times in 540 attempts. A total of 51 boosters have flown multiple missions, with a record of 31 missions by a booster, B1067. SpaceX has also reflown fairing halves more than 300 times, with SN185 (34 times; 2nd most reflown rocket part to space) and SN168 (30 times) being the most reflown active and passive fairing halves respectively. Typical missions include launches of SpaceX's Starlink satellites (accounting for a majority of the Falcon manifest since January 2020), Dragon crew and cargo missions to the International Space Station, and launches of commercial and military satellites to LEO, polar, and geosynchronous orbits. The heaviest payload launched on Falcon is a batch of 24 Starlink V2-Mini satellites weighing about 17,500 kg (38,600 lb) total, first flown in February 2024, landing on JRTI. The heaviest payload launched to geostationary transfer orbit (GTO) was the 9,200 kg (20,300 lb) Jupiter-3 on July 29, 2023. Launches to higher orbits have included DSCOVR and IMAP to Sun–Earth Lagrange point L1, TESS to a lunar flyby, a Tesla Roadster demonstration payload to a heliocentric orbit extending past the orbit of Mars, DART and Hera to the asteroid Didymos, Euclid to Sun-Earth Lagrange point L2, Psyche to the asteroid 16 Psyche, and Europa Clipper to Europa (a moon of Jupiter).

Tables

· Past launches › 2024
286
286
Flight No.
286
Date andtime (UTC)
January 3, 202403:44
Version,booster
F9 B5B1082‑1
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-9 (22 satellites)
Payload mass
~16,800 kg (37,000 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites, including the first six to feature direct-to-cell connectivity, to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 22 Starlink v2 mini satellites, including the first six to feature direct-to-cell connectivity, to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 22 Starlink v2 mini satellites, including the first six to feature direct-to-cell connectivity, to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
287
287
Flight No.
287
Date andtime (UTC)
January 3, 202423:04
Version,booster
F9 B5B1076‑10
Launchsite
Cape Canaveral, SLC‑40
Payload
Ovzon-3
Payload mass
1,800 kg (4,000 lb)
Orbit
GTO
Customer
Ovzon
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Broadband internet provider satellite. First Falcon 9 launch to GTO with a return-to-launch-site (RTLS) landing. First commercial satellite with Roll Out Solar Array that was deployed on January 10, 2024.
Broadband internet provider satellite. First Falcon 9 launch to GTO with a return-to-launch-site (RTLS) landing. First commercial satellite with Roll Out Solar Array that was deployed on January 10, 2024.
Flight No.
Broadband internet provider satellite. First Falcon 9 launch to GTO with a return-to-launch-site (RTLS) landing. First commercial satellite with Roll Out Solar Array that was deployed on January 10, 2024.
288
288
Flight No.
288
Date andtime (UTC)
January 7, 202422:35
Version,booster
F9 B5B1067‑16
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-35 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Falcon record for total time from hangar rollout to launch at 6 hours, 33 minutes.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Falcon record for total time from hangar rollout to launch at 6 hours, 33 minutes.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Falcon record for total time from hangar rollout to launch at 6 hours, 33 minutes.
289
289
Flight No.
289
Date andtime (UTC)
January 14, 202408:59
Version,booster
F9 B5B1061‑18
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-10 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 18th time.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 18th time.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 18th time.
290
290
Flight No.
290
Date andtime (UTC)
January 15, 202401:52
Version,booster
F9 B5B1073‑12
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-37 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Shortest landing-to-landing turnaround of a droneship, at about 7 days. 300th successful mission for SpaceX. Following this launch, SLC-40 was deactivated for planned maintenance and upgrades and would not see another flight until January 30.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Shortest landing-to-landing turnaround of a droneship, at about 7 days. 300th successful mission for SpaceX. Following this launch, SLC-40 was deactivated for planned maintenance and upgrades and would not see another flight until January 30.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Shortest landing-to-landing turnaround of a droneship, at about 7 days. 300th successful mission for SpaceX. Following this launch, SLC-40 was deactivated for planned maintenance and upgrades and would not see another flight until January 30.
291
291
Flight No.
291
Date andtime (UTC)
January 18, 202421:49
Version,booster
F9 B5B1080‑5
Launchsite
Kennedy, LC‑39A
Payload
Ax-3 (Crew Dragon C212-3 Freedom)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO (ISS)
Customer
Axiom Space
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Axiom contracted for three additional private crewed missions in June 2021. The crew consisted of American Michael López-Alegría, Italian astronaut Walter Villadei, ESA Swedish Project astronaut Marcus Wandt and Turkish astronaut Alper Gezeravcı.
Axiom contracted for three additional private crewed missions in June 2021. The crew consisted of American Michael López-Alegría, Italian astronaut Walter Villadei, ESA Swedish Project astronaut Marcus Wandt and Turkish astronaut Alper Gezeravcı.
Flight No.
Axiom contracted for three additional private crewed missions in June 2021. The crew consisted of American Michael López-Alegría, Italian astronaut Walter Villadei, ESA Swedish Project astronaut Marcus Wandt and Turkish astronaut Alper Gezeravcı.
292
292
Flight No.
292
Date andtime (UTC)
January 24, 202400:35
Version,booster
F9 B5B1063‑16
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-11 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
293
293
Flight No.
293
Date andtime (UTC)
January 29, 202401:10
Version,booster
F9 B5B1062‑18
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-38 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 15th time.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 15th time.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 15th time.
294
294
Flight No.
294
Date andtime (UTC)
January 29, 202405:57
Version,booster
F9 B5B1075‑9
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-12 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This landing marked the fastest turnaround of a droneship at just over 5 days. The launch also marked the fastest turnaround time of SLC-4E at 5 days, 5 hours, 22 minutes, and 20 seconds, beating previous record of 6.5 days.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This landing marked the fastest turnaround of a droneship at just over 5 days. The launch also marked the fastest turnaround time of SLC-4E at 5 days, 5 hours, 22 minutes, and 20 seconds, beating previous record of 6.5 days.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This landing marked the fastest turnaround of a droneship at just over 5 days. The launch also marked the fastest turnaround time of SLC-4E at 5 days, 5 hours, 22 minutes, and 20 seconds, beating previous record of 6.5 days.
295
295
Flight No.
295
Date andtime (UTC)
January 30, 202417:07
Version,booster
F9 B5B1077‑10
Launchsite
Cape Canaveral, SLC‑40
Payload
CRS NG-20 (S.S. Patricia "Patty" Hilliard Robertson)
Payload mass
3,726 kg (8,214 lb)
Orbit
LEO (ISS)
Customer
Northrop Grumman (CRS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
First Cygnus flight on Falcon 9. Northrop Grumman acquired four flights from SpaceX while a replacement rocket stage is developed for its Antares rocket. Eighth flight with short nozzle second stage, which has lower production cost and faster build time but is only suitable for missions with lower performance requirements. SpaceX modified the fairing to add a hatch for late cargo loads onto the spacecraft via mobile cleanroom. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Patricia “Patty” Hilliard Robertson.
First Cygnus flight on Falcon 9. Northrop Grumman acquired four flights from SpaceX while a replacement rocket stage is developed for its Antares rocket. Eighth flight with short nozzle second stage, which has lower production cost and faster build time but is only suitable for missions with lower performance requirements. SpaceX modified the fairing to add a hatch for late cargo loads onto the spacecraft via mobile cleanroom. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Patricia “Patty” Hilliard Robertson.
Flight No.
First Cygnus flight on Falcon 9. Northrop Grumman acquired four flights from SpaceX while a replacement rocket stage is developed for its Antares rocket. Eighth flight with short nozzle second stage, which has lower production cost and faster build time but is only suitable for missions with lower performance requirements. SpaceX modified the fairing to add a hatch for late cargo loads onto the spacecraft via mobile cleanroom. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Patricia “Patty” Hilliard Robertson.
296
296
Flight No.
296
Date andtime (UTC)
February 8, 202406:33
Version,booster
F9 B5B1081‑4
Launchsite
Cape Canaveral, SLC‑40
Payload
PACE
Payload mass
1,694 kg (3,735 lb)
Orbit
SSO
Customer
NASA (LSP)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
This was a mission to launch the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) spacecraft, a 1.7 tonnes (3,700 lb), US$800 million craft, that orbits at a 676 km (420 mi) altitude. It has the Ocean Color Imager intended to study phytoplankton in the ocean, as well as two polarimeters for studying properties of clouds, aerosols and the ocean. The launch price was US$80.4 million.
This was a mission to launch the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) spacecraft, a 1.7 tonnes (3,700 lb), US$800 million craft, that orbits at a 676 km (420 mi) altitude. It has the Ocean Color Imager intended to study phytoplankton in the ocean, as well as two polarimeters for studying properties of clouds, aerosols and the ocean. The launch price was US$80.4 million.
Flight No.
This was a mission to launch the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) spacecraft, a 1.7 tonnes (3,700 lb), US$800 million craft, that orbits at a 676 km (420 mi) altitude. It has the Ocean Color Imager intended to study phytoplankton in the ocean, as well as two polarimeters for studying properties of clouds, aerosols and the ocean. The launch price was US$80.4 million.
297
297
Flight No.
297
Date andtime (UTC)
February 10, 202400:34
Version,booster
F9 B5B1071‑14
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-13 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
298
298
Flight No.
298
Date andtime (UTC)
February 14, 202422:30
Version,booster
F9 B5B1078‑7
Launchsite
Cape Canaveral, SLC‑40
Payload
USSF-124 (6 satellites)
Payload mass
Unknown
Orbit
LEO
Customer
USSF / SDA
Launchoutcome
Success
Boosterlanding
Success (LZ‑2)
Launch included two HBTSS and four SDA Tranche 0 Tracking Layer satellites. Launch part of Phase 2 US Space Force contract awarded in 2022. Second time a second stage featured Falcon medium coast mission-extension kit. 1st time flying a fairing half for the 15th time.
Launch included two HBTSS and four SDA Tranche 0 Tracking Layer satellites. Launch part of Phase 2 US Space Force contract awarded in 2022. Second time a second stage featured Falcon medium coast mission-extension kit. 1st time flying a fairing half for the 15th time.
Flight No.
Launch included two HBTSS and four SDA Tranche 0 Tracking Layer satellites. Launch part of Phase 2 US Space Force contract awarded in 2022. Second time a second stage featured Falcon medium coast mission-extension kit. 1st time flying a fairing half for the 15th time.
299
299
Flight No.
299
Date andtime (UTC)
February 15, 202406:05
Version,booster
F9 B5B1060‑18
Launchsite
Kennedy, LC‑39A
Payload
IM-1 Nova-C Odysseus lander
Payload mass
1,931 kg (4,257 lb)
Orbit
TLI
Customer
NASA (CLPS) / Intuitive Machines
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Second mission of NASA's Commercial Lunar Payload Services program, and first private American company to successfully land a spacecraft on the Moon. The lander carried five payloads of up to 100 kg (220 lb) total (LRA, NDL, LN-1, SCALPSS, and ROLSES), a deployable camera namely, EagleCam and transmit data from the lunar surface in a mission lasting 2 weeks. The LC-39A pad's transporter erector was modified to fuel cryogenic liquid oxygen and liquid methane into the payload before liftoff.
Second mission of NASA's Commercial Lunar Payload Services program, and first private American company to successfully land a spacecraft on the Moon. The lander carried five payloads of up to 100 kg (220 lb) total (LRA, NDL, LN-1, SCALPSS, and ROLSES), a deployable camera namely, EagleCam and transmit data from the lunar surface in a mission lasting 2 weeks. The LC-39A pad's transporter erector was modified to fuel cryogenic liquid oxygen and liquid methane into the payload before liftoff.
Flight No.
Second mission of NASA's Commercial Lunar Payload Services program, and first private American company to successfully land a spacecraft on the Moon. The lander carried five payloads of up to 100 kg (220 lb) total (LRA, NDL, LN-1, SCALPSS, and ROLSES), a deployable camera namely, EagleCam and transmit data from the lunar surface in a mission lasting 2 weeks. The LC-39A pad's transporter erector was modified to fuel cryogenic liquid oxygen and liquid methane into the payload before liftoff.
300
300
Flight No.
300
Date andtime (UTC)
February 15, 202421:34
Version,booster
F9 B5B1082‑2
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-14 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the 300th Falcon 9 launch, the 200th consecutive successful landing of a booster, and the first time SpaceX launched three rockets within 24 hours. SpaceX removed the stiffener ring around the nozzle of Merlin Vacuum Engine on Starlink missions starting with this launch.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the 300th Falcon 9 launch, the 200th consecutive successful landing of a booster, and the first time SpaceX launched three rockets within 24 hours. SpaceX removed the stiffener ring around the nozzle of Merlin Vacuum Engine on Starlink missions starting with this launch.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the 300th Falcon 9 launch, the 200th consecutive successful landing of a booster, and the first time SpaceX launched three rockets within 24 hours. SpaceX removed the stiffener ring around the nozzle of Merlin Vacuum Engine on Starlink missions starting with this launch.
301
301
Flight No.
301
Date andtime (UTC)
February 20, 202420:11
Version,booster
F9 B5B1067‑17
Launchsite
Cape Canaveral, SLC‑40
Payload
Telkomsat HTS 113BT
Payload mass
4,000 kg (8,800 lb)
Orbit
GTO
Customer
Telkom Indonesia
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Indonesian satellite to provide more capacity over Indonesia. 300th successful Falcon 9 mission.
Indonesian satellite to provide more capacity over Indonesia. 300th successful Falcon 9 mission.
Flight No.
Indonesian satellite to provide more capacity over Indonesia. 300th successful Falcon 9 mission.
302
302
Flight No.
302
Date andtime (UTC)
February 23, 202404:11
Version,booster
F9 B5B1061‑19
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-15 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the second time a booster was flown for the 19th time and featured a Merlin engine that was being used on its 22nd mission beating its own record, having already surpassed Space Shuttle Main Engine no. 2019's record of 19 flights.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the second time a booster was flown for the 19th time and featured a Merlin engine that was being used on its 22nd mission beating its own record, having already surpassed Space Shuttle Main Engine no. 2019's record of 19 flights.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the second time a booster was flown for the 19th time and featured a Merlin engine that was being used on its 22nd mission beating its own record, having already surpassed Space Shuttle Main Engine no. 2019's record of 19 flights.
303
303
Flight No.
303
Date andtime (UTC)
February 25, 202422:06
Version,booster
F9 B5B1069‑13
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-39 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 24 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. New mass record on Falcon 9 taking 17,500 kg (38,600 lb) to low Earth orbit.
Launch of 24 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. New mass record on Falcon 9 taking 17,500 kg (38,600 lb) to low Earth orbit.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. New mass record on Falcon 9 taking 17,500 kg (38,600 lb) to low Earth orbit.
304
304
Flight No.
304
Date andtime (UTC)
February 29, 202415:30
Version,booster
F9 B5B1076‑11
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-40 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
305
305
Flight No.
305
Date andtime (UTC)
March 4, 202403:53
Version,booster
F9 B5B1083‑1
Launchsite
Kennedy, LC‑39A
Payload
Crew-8 (Crew Dragon C206-5 Endeavour)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO (ISS)
Customer
NASA (CTS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
After first six Crew Dragon launches of NASA USCV award, a further three missions for SpaceX were announced on December 3, 2021. These launches carry up to four astronauts and 100 kg (220 lb) of cargo to the ISS as well as feature a lifeboat function to evacuate astronauts from ISS in case of an emergency. SpaceX flew its 50th astronaut on this Crew Dragon launch.
After first six Crew Dragon launches of NASA USCV award, a further three missions for SpaceX were announced on December 3, 2021. These launches carry up to four astronauts and 100 kg (220 lb) of cargo to the ISS as well as feature a lifeboat function to evacuate astronauts from ISS in case of an emergency. SpaceX flew its 50th astronaut on this Crew Dragon launch.
Flight No.
After first six Crew Dragon launches of NASA USCV award, a further three missions for SpaceX were announced on December 3, 2021. These launches carry up to four astronauts and 100 kg (220 lb) of cargo to the ISS as well as feature a lifeboat function to evacuate astronauts from ISS in case of an emergency. SpaceX flew its 50th astronaut on this Crew Dragon launch.
306
306
Flight No.
306
Date andtime (UTC)
March 4, 202422:05
Version,booster
F9 B5B1081‑5
Launchsite
Vandenberg, SLC‑4E
Payload
Transporter-10 (53 payload smallsat rideshare)
Payload mass
Unknown
Orbit
SSO
Customer
Various
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Dedicated SmallSat Rideshare mission to sun-synchronous orbit including the 1,000th satellite of SpaceX rideshare program. Third time a second stage featured Falcon medium coast mission-extension kit.
Dedicated SmallSat Rideshare mission to sun-synchronous orbit including the 1,000th satellite of SpaceX rideshare program. Third time a second stage featured Falcon medium coast mission-extension kit.
Flight No.
Dedicated SmallSat Rideshare mission to sun-synchronous orbit including the 1,000th satellite of SpaceX rideshare program. Third time a second stage featured Falcon medium coast mission-extension kit.
307
307
Flight No.
307
Date andtime (UTC)
March 4, 202423:56
Version,booster
F9 B5B1073‑13
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-41 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. SpaceX set a new record for the shortest time between two Falcon launches at 1 hour and 51 minutes. The previous record time was 2 hours and 54 minutes, set between the USSF-52 (Boeing X-37B OTV-7) and Starlink Group 6–36 missions on December 29, 2023. Thus for the first time, SpaceX launch operations for a mission coincided with that of a preceding launch (in this case, payload deployment of Transporter-10:(53 payloads SmallSat Rideshare). It was a new record for the shortest time between three Falcon launches at 20 hours and 3 minutes. The previous record time was 23 hours and 4 minutes, set between flights 298 and 300 on February 14/15, 2024.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. SpaceX set a new record for the shortest time between two Falcon launches at 1 hour and 51 minutes. The previous record time was 2 hours and 54 minutes, set between the USSF-52 (Boeing X-37B OTV-7) and Starlink Group 6–36 missions on December 29, 2023. Thus for the first time, SpaceX launch operations for a mission coincided with that of a preceding launch (in this case, payload deployment of Transporter-10:(53 payloads SmallSat Rideshare). It was a new record for the shortest time between three Falcon launches at 20 hours and 3 minutes. The previous record time was 23 hours and 4 minutes, set between flights 298 and 300 on February 14/15, 2024.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. SpaceX set a new record for the shortest time between two Falcon launches at 1 hour and 51 minutes. The previous record time was 2 hours and 54 minutes, set between the USSF-52 (Boeing X-37B OTV-7) and Starlink Group 6–36 missions on December 29, 2023. Thus for the first time, SpaceX launch operations for a mission coincided with that of a preceding launch (in this case, payload deployment of Transporter-10:(53 payloads SmallSat Rideshare). It was a new record for the shortest time between three Falcon launches at 20 hours and 3 minutes. The previous record time was 23 hours and 4 minutes, set between flights 298 and 300 on February 14/15, 2024.
308
308
Flight No.
308
Date andtime (UTC)
March 10, 202423:05
Version,booster
F9 B5B1077‑11
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-43 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
309
309
Flight No.
309
Date andtime (UTC)
March 11, 202404:09
Version,booster
F9 B5B1063‑17
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-17 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. First time 23 Starlink v2 mini satellites are launched on a flight from Vandenberg.
Launch of 23 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. First time 23 Starlink v2 mini satellites are launched on a flight from Vandenberg.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. First time 23 Starlink v2 mini satellites are launched on a flight from Vandenberg.
310
310
Flight No.
310
Date andtime (UTC)
March 16, 202400:21
Version,booster
F9 B5B1062‑19
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-44 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 16th time.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 16th time.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 16th time.
311
311
Flight No.
311
Date andtime (UTC)
March 19, 202402:28
Version,booster
F9 B5B1075‑10
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-16 (20 satellites) + 2 Starshield satellites
Payload mass
~16,300 kg (35,900 lb)(Starlink)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation and two SpaceX Starshield satellites as rideshare.
Launch of 20 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation and two SpaceX Starshield satellites as rideshare.
Flight No.
Launch of 20 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation and two SpaceX Starshield satellites as rideshare.
312
312
Flight No.
312
Date andtime (UTC)
March 21, 202420:55
Version,booster
F9 B5B1080‑6
Launchsite
Cape Canaveral, SLC‑40
Payload
SpaceX CRS-30 (Dragon C209-4)
Payload mass
2,721 kg (5,999 lb)
Orbit
LEO (ISS)
Customer
NASA (CRS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026. First launch of Dragon 2 from SLC-40.
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026. First launch of Dragon 2 from SLC-40.
Flight No.
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026. First launch of Dragon 2 from SLC-40.
313
313
Flight No.
313
Date andtime (UTC)
March 24, 202403:09
Version,booster
F9 B5B1060‑19
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-42 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
314
314
Flight No.
314
Date andtime (UTC)
March 25, 202423:42
Version,booster
F9 B5B1078‑8
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-46 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Least time taken between landing and port's arrival at 50 hours and fastest turnaround of a pad switching from Dragon to Fairing mission, that was completed in 4 days.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Least time taken between landing and port's arrival at 50 hours and fastest turnaround of a pad switching from Dragon to Fairing mission, that was completed in 4 days.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Least time taken between landing and port's arrival at 50 hours and fastest turnaround of a pad switching from Dragon to Fairing mission, that was completed in 4 days.
315
315
Flight No.
315
Date andtime (UTC)
March 30, 202421:52
Version,booster
F9 B5B1076‑12
Launchsite
Kennedy, LC‑39A
Payload
Eutelsat 36D
Payload mass
5,000 kg (11,000 lb)
Orbit
GTO
Customer
Eutelsat
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Television broadcast satellite. First time SpaceX completed 11 Falcon launches in a calendar month.
Television broadcast satellite. First time SpaceX completed 11 Falcon launches in a calendar month.
Flight No.
Television broadcast satellite. First time SpaceX completed 11 Falcon launches in a calendar month.
316
316
Flight No.
316
Date andtime (UTC)
March 31, 202401:30
Version,booster
F9 B5B1067‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-45 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. This marks the first time SpaceX has completed 12 Falcon launches in a calendar month.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. This marks the first time SpaceX has completed 12 Falcon launches in a calendar month.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. This marks the first time SpaceX has completed 12 Falcon launches in a calendar month.
317
317
Flight No.
317
Date andtime (UTC)
April 2, 202402:30
Version,booster
F9 B5B1071‑15
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 7-18 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
318
318
Flight No.
318
Date andtime (UTC)
April 5, 202409:12
Version,booster
F9 B5B1069‑14
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-47 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
319
319
Flight No.
319
Date andtime (UTC)
April 7, 202402:25
Version,booster
F9 B5B1081‑6
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 8-1 (21 satellites)
Payload mass
~16,800 kg (37,000 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 21 Starlink v2 mini satellites, including six with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including six with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including six with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
320
320
Flight No.
320
Date andtime (UTC)
April 7, 202423:16
Version,booster
F9 B5B1073‑14
Launchsite
Kennedy, LC‑39A
Payload
Bandwagon-1 (11 payload smallsat rideshare) 425 Project Flight 2
Payload mass
Unknown
Orbit
LEO
Customer
Various Republic of Korea Armed Forces
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Dedicated SmallSat Rideshare mission to 45° inclination, 550–600 km (340–370 mi) altitude. The mission includes flight 2 of 425 Project, a military SAR satellite of South Korea with a mass of ~800 kg (1,800 lb).
Dedicated SmallSat Rideshare mission to 45° inclination, 550–600 km (340–370 mi) altitude. The mission includes flight 2 of 425 Project, a military SAR satellite of South Korea with a mass of ~800 kg (1,800 lb).
Flight No.
Dedicated SmallSat Rideshare mission to 45° inclination, 550–600 km (340–370 mi) altitude. The mission includes flight 2 of 425 Project, a military SAR satellite of South Korea with a mass of ~800 kg (1,800 lb).
321
321
Flight No.
321
Date andtime (UTC)
April 10, 202405:40
Version,booster
F9 B5B1083‑2
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-48 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 17th time.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 17th time.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 17th time.
322
322
Flight No.
322
Date andtime (UTC)
April 11, 202414:25
Version,booster
F9 B5B1082‑3
Launchsite
Vandenberg, SLC‑4E
Payload
USSF-62 (WSF-M 1)
Payload mass
1,200 kg (2,600 lb)
Orbit
SSO
Customer
USSF
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Launch part of Phase 2 US Space Force contract awarded in 2022. This was the first launch of the Weather System Follow-on Microwave weather satellite, which replaced the aging Defense Meteorological Satellite Program satellites.
Launch part of Phase 2 US Space Force contract awarded in 2022. This was the first launch of the Weather System Follow-on Microwave weather satellite, which replaced the aging Defense Meteorological Satellite Program satellites.
Flight No.
Launch part of Phase 2 US Space Force contract awarded in 2022. This was the first launch of the Weather System Follow-on Microwave weather satellite, which replaced the aging Defense Meteorological Satellite Program satellites.
323
323
Flight No.
323
Date andtime (UTC)
April 13, 202401:40
Version,booster
F9 B5B1062‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-49 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly for the 20th time, new record.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly for the 20th time, new record.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly for the 20th time, new record.
324
324
Flight No.
324
Date andtime (UTC)
April 17, 202421:26
Version,booster
F9 B5B1077‑12
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-51 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
325
325
Flight No.
325
Date andtime (UTC)
April 18, 202422:40
Version,booster
F9 B5B1080‑7
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-52 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
326
326
Flight No.
326
Date andtime (UTC)
April 23, 202422:17
Version,booster
F9 B5B1078‑9
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-53 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 300th Falcon booster landing, including both Falcon 9 and Falcon Heavy boosters.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 300th Falcon booster landing, including both Falcon 9 and Falcon Heavy boosters.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 300th Falcon booster landing, including both Falcon 9 and Falcon Heavy boosters.
327
327
Flight No.
327
Date andtime (UTC)
April 28, 202400:34
Version,booster
F9 B5B1060‑20
Launchsite
Kennedy, LC‑39A
Payload
Galileo-L12 (FOC FM25 & FM27)
Payload mass
1,600 kg (3,500 lb)
Orbit
MEO
Customer
ESA
Launchoutcome
Success
Boosterlanding
No attempt
First Galileo satellites booked on a US rocket following delays to the European Ariane 6 program. The booster was expended on this mission due to the performance needed to get the payload to the desired 23,616 km orbit.
First Galileo satellites booked on a US rocket following delays to the European Ariane 6 program. The booster was expended on this mission due to the performance needed to get the payload to the desired 23,616 km orbit.
Flight No.
First Galileo satellites booked on a US rocket following delays to the European Ariane 6 program. The booster was expended on this mission due to the performance needed to get the payload to the desired 23,616 km orbit.
328
328
Flight No.
328
Date andtime (UTC)
April 28, 202422:08
Version,booster
F9 B5B1076‑13
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-54 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 300th consecutive successful Falcon 9 launch.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 300th consecutive successful Falcon 9 launch.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 300th consecutive successful Falcon 9 launch.
329
329
Flight No.
329
Date andtime (UTC)
May 2, 202418:36
Version,booster
F9 B5B1061‑20
Launchsite
Vandenberg, SLC‑4E
Payload
WorldView Legion 1 & 2
Payload mass
1,500 kg (3,300 lb)
Orbit
SSO
Customer
Maxar Technologies
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Two Maxar Technologies satellites built by subsidiary SSL for subsidiary DigitalGlobe. Ninth flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements.
Two Maxar Technologies satellites built by subsidiary SSL for subsidiary DigitalGlobe. Ninth flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements.
Flight No.
Two Maxar Technologies satellites built by subsidiary SSL for subsidiary DigitalGlobe. Ninth flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements.
330
330
Flight No.
330
Date andtime (UTC)
May 3, 202402:37
Version,booster
F9 B5B1067‑19
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-55 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 18th time.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 18th time.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 18th time.
331
331
Flight No.
331
Date andtime (UTC)
May 6, 202418:14
Version,booster
F9 B5B1069‑15
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-57 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
332
332
Flight No.
332
Date andtime (UTC)
May 8, 202418:42
Version,booster
F9 B5B1083‑3
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-56 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
333
333
Flight No.
333
Date andtime (UTC)
May 10, 202404:30
Version,booster
F9 B5B1082‑4
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 8-2 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
334
334
Flight No.
334
Date andtime (UTC)
May 13, 202400:53
Version,booster
F9 B5B1073‑15
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-58 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
335
335
Flight No.
335
Date andtime (UTC)
May 14, 202418:39
Version,booster
F9 B5B1063‑18
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 8-7 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
336
336
Flight No.
336
Date andtime (UTC)
May 18, 202400:32
Version,booster
F9 B5B1062‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-59 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly for the 21st time, new record.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly for the 21st time, new record.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly for the 21st time, new record.
337
337
Flight No.
337
Date andtime (UTC)
May 22, 202408:00
Version,booster
F9 B5B1071‑16
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-146 (21 Starshield satellites)
Payload mass
Unknown
Orbit
SSO
Customer
Northrop Grumman/NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
The first launch of SpaceX/Northrop built Starshield satellites for the National Reconnaissance Office.
The first launch of SpaceX/Northrop built Starshield satellites for the National Reconnaissance Office.
Flight No.
The first launch of SpaceX/Northrop built Starshield satellites for the National Reconnaissance Office.
338
338
Flight No.
338
Date andtime (UTC)
May 23, 202402:35
Version,booster
F9 B5B1080‑8
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-62 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
339
339
Flight No.
339
Date andtime (UTC)
May 24, 202402:45
Version,booster
F9 B5B1077‑13
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-63 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 19th time.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 19th time.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 19th time.
340
340
Flight No.
340
Date andtime (UTC)
May 28, 202414:24
Version,booster
F9 B5B1078‑10
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-60 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
341
341
Flight No.
341
Date andtime (UTC)
May 28, 202422:20
Version,booster
F9 B5B1081‑7
Launchsite
Vandenberg, SLC‑4E
Payload
EarthCARE
Payload mass
2,350 kg (5,180 lb)
Orbit
SSO
Customer
ESA
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
EarthCARE (Cloud, Aerosol and Radiation Explorer) satellite was the sixth mission in ESA's Earth Explorer program. Tenth flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements. This marked the first time SpaceX has completed 13 Falcon launches in a calendar month.
EarthCARE (Cloud, Aerosol and Radiation Explorer) satellite was the sixth mission in ESA's Earth Explorer program. Tenth flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements. This marked the first time SpaceX has completed 13 Falcon launches in a calendar month.
Flight No.
EarthCARE (Cloud, Aerosol and Radiation Explorer) satellite was the sixth mission in ESA's Earth Explorer program. Tenth flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements. This marked the first time SpaceX has completed 13 Falcon launches in a calendar month.
342
342
Flight No.
342
Date andtime (UTC)
June 1, 202402:37
Version,booster
F9 B5B1076‑14
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-64 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Fastest landing-to-landing turnaround of a drone ship, with A Shortfall of Gravitas having serviced the previous Starlink launch only 3 days, 12 hours prior. First time SpaceX has completed 14 Falcon launches in a calendar month (the launch took place on the evening of May 31 local time).
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Fastest landing-to-landing turnaround of a drone ship, with A Shortfall of Gravitas having serviced the previous Starlink launch only 3 days, 12 hours prior. First time SpaceX has completed 14 Falcon launches in a calendar month (the launch took place on the evening of May 31 local time).
Flight No.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Fastest landing-to-landing turnaround of a drone ship, with A Shortfall of Gravitas having serviced the previous Starlink launch only 3 days, 12 hours prior. First time SpaceX has completed 14 Falcon launches in a calendar month (the launch took place on the evening of May 31 local time).
343
343
Flight No.
343
Date andtime (UTC)
June 5, 202402:16
Version,booster
F9 B5B1067‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-5 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
344
344
Flight No.
344
Date andtime (UTC)
June 8, 202401:56
Version,booster
F9 B5B1069‑16
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-1 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 300th Falcon 9 booster landing.
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 300th Falcon 9 booster landing.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 300th Falcon 9 booster landing.
345
345
Flight No.
345
Date andtime (UTC)
June 8, 202412:58
Version,booster
F9 B5B1061‑21
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 8-8 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 21st time.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 21st time.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 21st time.
346
346
Flight No.
346
Date andtime (UTC)
June 19, 202403:40
Version,booster
F9 B5B1082‑5
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 9-1 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
347
347
Flight No.
347
Date andtime (UTC)
June 20, 202421:35
Version,booster
F9 B5B1080‑9
Launchsite
Cape Canaveral, SLC‑40
Payload
Astra 1P
Payload mass
5,000 kg (11,000 lb)
Orbit
GTO
Customer
SES
Launchoutcome
Success
Boosterlanding
Success (JRTI)
A SES satellite serving major broadcasters across Europe.
A SES satellite serving major broadcasters across Europe.
Flight No.
A SES satellite serving major broadcasters across Europe.
348
348
Flight No.
348
Date andtime (UTC)
June 23, 202417:15
Version,booster
F9 B5B1078‑11
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-2 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. A launch attempt on June 14 was scrubbed when B1073 commanded an abort seconds after engine ignition. The payload and second stage were moved to B1078 for launch. 1st time flying a fairing half for the 20th time.
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. A launch attempt on June 14 was scrubbed when B1073 commanded an abort seconds after engine ignition. The payload and second stage were moved to B1078 for launch. 1st time flying a fairing half for the 20th time.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. A launch attempt on June 14 was scrubbed when B1073 commanded an abort seconds after engine ignition. The payload and second stage were moved to B1078 for launch. 1st time flying a fairing half for the 20th time.
349
349
Flight No.
349
Date andtime (UTC)
June 24, 202403:47
Version,booster
F9 B5B1075‑11
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 9-2 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
FH 10
FH 10
Flight No.
FH 10
Date andtime (UTC)
June 25, 202421:26
Version,booster
Falcon Heavy B5B1087 (core)
Launchsite
Kennedy, LC‑39A
Payload
GOES-U (GOES-19)
Payload mass
5,000 kg (11,000 lb)
Orbit
GTO
Customer
NOAA
Launchoutcome
Success
Boosterlanding
No attempt
B1072‑1 (side)
B1072‑1 (side)
Flight No.
B1072‑1 (side)
Date andtime (UTC)
Success (LZ‑1)
B1086‑1 (side)
B1086‑1 (side)
Flight No.
B1086‑1 (side)
Date andtime (UTC)
Success (LZ‑2)
In September 2021, NASA awarded SpaceX a $152.5 million contract to provide launch services for the GOES-U weather satellite (renamed as GOES-19 after reaching geostationary orbit). Fourth time a second stage featured Falcon medium coast mission-extension kit. Center core expended as side boosters landed on LZ-1 and 2.
In September 2021, NASA awarded SpaceX a $152.5 million contract to provide launch services for the GOES-U weather satellite (renamed as GOES-19 after reaching geostationary orbit). Fourth time a second stage featured Falcon medium coast mission-extension kit. Center core expended as side boosters landed on LZ-1 and 2.
Flight No.
In September 2021, NASA awarded SpaceX a $152.5 million contract to provide launch services for the GOES-U weather satellite (renamed as GOES-19 after reaching geostationary orbit). Fourth time a second stage featured Falcon medium coast mission-extension kit. Center core expended as side boosters landed on LZ-1 and 2.
350
350
Flight No.
350
Date andtime (UTC)
June 27, 202411:14
Version,booster
F9 B5B1062‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-3 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly for the 22nd time, new record.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly for the 22nd time, new record.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly for the 22nd time, new record.
351
351
Flight No.
351
Date andtime (UTC)
June 29, 202403:14
Version,booster
F9 B5B1081‑8
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-186 (~21 Starshield satellites)
Payload mass
Unknown
Orbit
SSO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
The second launch of SpaceX/Northrop Grumman built Starshield satellites for the National Reconnaissance Office.
The second launch of SpaceX/Northrop Grumman built Starshield satellites for the National Reconnaissance Office.
Flight No.
The second launch of SpaceX/Northrop Grumman built Starshield satellites for the National Reconnaissance Office.
352
352
Flight No.
352
Date andtime (UTC)
July 3, 202408:55
Version,booster
F9 B5B1073‑16
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-9 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 100th Starlink satellite launched with direct-to-cell connectivity.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 100th Starlink satellite launched with direct-to-cell connectivity.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 100th Starlink satellite launched with direct-to-cell connectivity.
353
353
Flight No.
353
Date andtime (UTC)
July 8, 202423:30
Version,booster
F9 B5B1076‑15
Launchsite
Cape Canaveral, SLC‑40
Payload
Türksat 6A
Payload mass
4,250 kg (9,370 lb)
Orbit
GTO
Customer
Türksat
Launchoutcome
Success
Boosterlanding
Success (JRTI)
First domestically produced Turkish communications satellite.
First domestically produced Turkish communications satellite.
Flight No.
First domestically produced Turkish communications satellite.
354
354
Flight No.
354
Date andtime (UTC)
July 12, 202402:35
Version,booster
F9 B5B1063‑19
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 9-3 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Failure
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, that failed to reach the target orbit. The mission experienced a failure of its second stage. While the initial burn proceeded as planned, a subsequent liquid oxygen leak led to engine disintegration during a planned second burn. All starlink satellites were deployed, but without the additional burn, all Starlink satellites were lost due to atmospheric drag. The incident marked the first Falcon 9 Block 5 failure since its introduction, ending a streak of 325 consecutive successful Falcon 9 launches following the pre-flight anomaly of AMOS-6. The FAA initiated a SpaceX-performed mishap investigation, halting Falcon 9 launches until concluding that no public safety risks were present. The rocket was cleared to resume flight on July 25, 2024, though the overall investigation remained open.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, that failed to reach the target orbit. The mission experienced a failure of its second stage. While the initial burn proceeded as planned, a subsequent liquid oxygen leak led to engine disintegration during a planned second burn. All starlink satellites were deployed, but without the additional burn, all Starlink satellites were lost due to atmospheric drag. The incident marked the first Falcon 9 Block 5 failure since its introduction, ending a streak of 325 consecutive successful Falcon 9 launches following the pre-flight anomaly of AMOS-6. The FAA initiated a SpaceX-performed mishap investigation, halting Falcon 9 launches until concluding that no public safety risks were present. The rocket was cleared to resume flight on July 25, 2024, though the overall investigation remained open.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, that failed to reach the target orbit. The mission experienced a failure of its second stage. While the initial burn proceeded as planned, a subsequent liquid oxygen leak led to engine disintegration during a planned second burn. All starlink satellites were deployed, but without the additional burn, all Starlink satellites were lost due to atmospheric drag. The incident marked the first Falcon 9 Block 5 failure since its introduction, ending a streak of 325 consecutive successful Falcon 9 launches following the pre-flight anomaly of AMOS-6. The FAA initiated a SpaceX-performed mishap investigation, halting Falcon 9 launches until concluding that no public safety risks were present. The rocket was cleared to resume flight on July 25, 2024, though the overall investigation remained open.
355
355
Flight No.
355
Date andtime (UTC)
July 27, 202405:45
Version,booster
F9 B5B1069‑17
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 10-9 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. Return-to-flight mission.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. Return-to-flight mission.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. Return-to-flight mission.
356
356
Flight No.
356
Date andtime (UTC)
July 28, 202405:09
Version,booster
F9 B5B1077‑14
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-4 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 300th Falcon first-stage reflight.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 300th Falcon first-stage reflight.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 300th Falcon first-stage reflight.
357
357
Flight No.
357
Date andtime (UTC)
July 28, 202409:22
Version,booster
F9 B5B1071‑17
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 9-4 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
358
358
Flight No.
358
Date andtime (UTC)
August 2, 202405:01
Version,booster
F9 B5B1078‑12
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 10-6 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
359
359
Flight No.
359
Date andtime (UTC)
August 4, 202407:24
Version,booster
F9 B5B1082‑6
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-1 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
360
360
Flight No.
360
Date andtime (UTC)
August 4, 202415:02
Version,booster
F9 B5B1080‑10
Launchsite
Cape Canaveral, SLC‑40
Payload
CRS NG-21 (S.S. Francis R. "Dick" Scobee)
Payload mass
3,857 kg (8,503 lb)
Orbit
LEO (ISS)
Customer
Northrop Grumman (CRS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Second of four launches Northrop Grumman acquired from SpaceX while a replacement rocket stage is developed for its Antares rocket. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Francis R. "Dick" Scobee. Eleventh flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements.
Second of four launches Northrop Grumman acquired from SpaceX while a replacement rocket stage is developed for its Antares rocket. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Francis R. "Dick" Scobee. Eleventh flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements.
Flight No.
Second of four launches Northrop Grumman acquired from SpaceX while a replacement rocket stage is developed for its Antares rocket. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Francis R. "Dick" Scobee. Eleventh flight with short nozzle second stage aimed at lowering costs and improving launch cadence, but is only suitable for missions with lower performance requirements.
361
361
Flight No.
361
Date andtime (UTC)
August 10, 202412:50
Version,booster
F9 B5B1067‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-3 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
362
362
Flight No.
362
Date andtime (UTC)
August 12, 202402:02
Version,booster
F9 B5B1061‑22
Launchsite
Vandenberg, SLC‑4E
Payload
ASBM 1 (GX 10A) & ASBM 2 (GX 10B)
Payload mass
~7,230 kg (15,940 lb)
Orbit
Molniya
Customer
Space Norway
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Space Norway launched two satellites built by Inmarsat for the Arctic Satellite Broadband Mission (ASBM) system into highly elliptical Molniya transfer orbits (apogee: 43,509 km (27,035 mi), perigee: 8,089 km (5,026 mi), 63.4° inclination) to provide communication coverage to high latitudes not served by geosynchronous satellites. Second booster to fly for the 22nd time.
Space Norway launched two satellites built by Inmarsat for the Arctic Satellite Broadband Mission (ASBM) system into highly elliptical Molniya transfer orbits (apogee: 43,509 km (27,035 mi), perigee: 8,089 km (5,026 mi), 63.4° inclination) to provide communication coverage to high latitudes not served by geosynchronous satellites. Second booster to fly for the 22nd time.
Flight No.
Space Norway launched two satellites built by Inmarsat for the Arctic Satellite Broadband Mission (ASBM) system into highly elliptical Molniya transfer orbits (apogee: 43,509 km (27,035 mi), perigee: 8,089 km (5,026 mi), 63.4° inclination) to provide communication coverage to high latitudes not served by geosynchronous satellites. Second booster to fly for the 22nd time.
363
363
Flight No.
363
Date andtime (UTC)
August 12, 202410:37
Version,booster
F9 B5B1073‑17
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 10-7 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
364
364
Flight No.
364
Date andtime (UTC)
August 15, 202413:00
Version,booster
F9 B5B1076‑16
Launchsite
Cape Canaveral, SLC‑40
Payload
WorldView Legion 3 & 4
Payload mass
1,500 kg (3,300 lb)
Orbit
LEO
Customer
Maxar Technologies
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Maxar Technologies built satellites.
Maxar Technologies built satellites.
Flight No.
Maxar Technologies built satellites.
365
365
Flight No.
365
Date andtime (UTC)
August 16, 202418:56
Version,booster
F9 B5B1075‑12
Launchsite
Vandenberg, SLC-4E
Payload
Transporter-11 (116 payload smallsat rideshare)
Payload mass
Unknown
Orbit
SSO
Customer
Various
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Dedicated SmallSat Rideshare mission to sun-synchronous orbit. Fifth time a second stage featured Falcon medium coast mission-extension kit.
Dedicated SmallSat Rideshare mission to sun-synchronous orbit. Fifth time a second stage featured Falcon medium coast mission-extension kit.
Flight No.
Dedicated SmallSat Rideshare mission to sun-synchronous orbit. Fifth time a second stage featured Falcon medium coast mission-extension kit.
366
366
Flight No.
366
Date andtime (UTC)
August 20, 202413:20
Version,booster
F9 B5B1085‑1
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-5 (23 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
367
367
Flight No.
367
Date andtime (UTC)
August 28, 202407:48
Version,booster
F9 B5B1062‑23
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-6 (21 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Failure (ASOG)
Launch of 21 Starlink v2 mini-satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. The booster was making its 23rd flight, a new record. The booster caught fire during the touchdown, immediately tipped over, and was destroyed. This marked the first landing failure in over three years, ending a streak of 267 successful landings and the first failure on the A Shortfall of Gravitas platform. The FAA required SpaceX to investigate the landing failure. On Aug 30, the FAA approved the request for SpaceX to return Falcon 9 to launch.
Launch of 21 Starlink v2 mini-satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. The booster was making its 23rd flight, a new record. The booster caught fire during the touchdown, immediately tipped over, and was destroyed. This marked the first landing failure in over three years, ending a streak of 267 successful landings and the first failure on the A Shortfall of Gravitas platform. The FAA required SpaceX to investigate the landing failure. On Aug 30, the FAA approved the request for SpaceX to return Falcon 9 to launch.
Flight No.
Launch of 21 Starlink v2 mini-satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. The booster was making its 23rd flight, a new record. The booster caught fire during the touchdown, immediately tipped over, and was destroyed. This marked the first landing failure in over three years, ending a streak of 267 successful landings and the first failure on the A Shortfall of Gravitas platform. The FAA required SpaceX to investigate the landing failure. On Aug 30, the FAA approved the request for SpaceX to return Falcon 9 to launch.
368
368
Flight No.
368
Date andtime (UTC)
August 31, 202407:43
Version,booster
F9 B5B1069‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-10 (21 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
369
369
Flight No.
369
Date andtime (UTC)
August 31, 202408:48
Version,booster
F9 B5B1081‑9
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-5 (21 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. New record for the time between missions from different pads, launching 1 hour and 5 minutes after the prior flight.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. New record for the time between missions from different pads, launching 1 hour and 5 minutes after the prior flight.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. New record for the time between missions from different pads, launching 1 hour and 5 minutes after the prior flight.
370
370
Flight No.
370
Date andtime (UTC)
September 5, 202415:33
Version,booster
F9 B5B1077‑15
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-11 (21 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
371
371
Flight No.
371
Date andtime (UTC)
September 6, 202403:20
Version,booster
F9 B5B1063‑20
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-113 (21 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 21 Starshield satellites to 70° inclination orbit. Third launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. Launch marked the 100th successful landing on the Of Course I Still Love You droneship.
Launch of 21 Starshield satellites to 70° inclination orbit. Third launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. Launch marked the 100th successful landing on the Of Course I Still Love You droneship.
Flight No.
Launch of 21 Starshield satellites to 70° inclination orbit. Third launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. Launch marked the 100th successful landing on the Of Course I Still Love You droneship.
372
372
Flight No.
372
Date andtime (UTC)
September 10, 202409:23
Version,booster
F9 B5B1083‑4
Launchsite
Kennedy, LC‑39A
Payload
Polaris Dawn (Crew Dragon C207-3 Resilience)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO
Customer
Polaris Program
Launchoutcome
Success
Boosterlanding
Success (JRTI)
First of two Crew Dragon missions for the Polaris Program. The rocket launched Crew Dragon with Jared Isaacman, Scott Poteet, Sarah Gillis and Anna Menon into an elliptic orbit, reaching an altitude of 1,400 kilometers (870 mi); the farthest anyone has been from Earth since NASA's Apollo program. During the five-day mission, Isaacman and Gillis performed the first commercial spacewalk. The mission was also the first test of Dragon's laser interlink communication via Starlink. Resilience has been modified extensively for this mission.
First of two Crew Dragon missions for the Polaris Program. The rocket launched Crew Dragon with Jared Isaacman, Scott Poteet, Sarah Gillis and Anna Menon into an elliptic orbit, reaching an altitude of 1,400 kilometers (870 mi); the farthest anyone has been from Earth since NASA's Apollo program. During the five-day mission, Isaacman and Gillis performed the first commercial spacewalk. The mission was also the first test of Dragon's laser interlink communication via Starlink. Resilience has been modified extensively for this mission.
Flight No.
First of two Crew Dragon missions for the Polaris Program. The rocket launched Crew Dragon with Jared Isaacman, Scott Poteet, Sarah Gillis and Anna Menon into an elliptic orbit, reaching an altitude of 1,400 kilometers (870 mi); the farthest anyone has been from Earth since NASA's Apollo program. During the five-day mission, Isaacman and Gillis performed the first commercial spacewalk. The mission was also the first test of Dragon's laser interlink communication via Starlink. Resilience has been modified extensively for this mission.
373
373
Flight No.
373
Date andtime (UTC)
September 12, 202408:52
Version,booster
F9 B5B1078‑13
Launchsite
Cape Canaveral, SLC‑40
Payload
BlueBird Block 1 (5 satellites)
Payload mass
7,500 kg (16,500 lb)
Orbit
LEO
Customer
AST SpaceMobile
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Cellphone-compatible broadband constellation. Each satellite is a similar size and weight to its 1,500-kilogram (3,300 lb) BlueWalker 3 prototype and have a 64-square-meter (690 sq ft) phased array antenna.
Cellphone-compatible broadband constellation. Each satellite is a similar size and weight to its 1,500-kilogram (3,300 lb) BlueWalker 3 prototype and have a 64-square-meter (690 sq ft) phased array antenna.
Flight No.
Cellphone-compatible broadband constellation. Each satellite is a similar size and weight to its 1,500-kilogram (3,300 lb) BlueWalker 3 prototype and have a 64-square-meter (690 sq ft) phased array antenna.
374
374
Flight No.
374
Date andtime (UTC)
September 13, 202401:45
Version,booster
F9 B5B1071‑18
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-6 (21 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
375
375
Flight No.
375
Date andtime (UTC)
September 17, 202422:50
Version,booster
F9 B5B1067‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Galileo-L13 (FOC FM26 & FM32)
Payload mass
1,600 kg (3,500 lb)
Orbit
MEO
Customer
ESA
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Second and last launch of Galileo navigation satellites on Falcon 9. Originally planned to launch on Soyuz, but canceled after the Russian invasion of Ukraine. Launch was shifted to the new Ariane 6 rocket, but the program was delayed. On the previous Galileo launch, the booster was expended due to a lack of fuel for a landing. However, that launch provided data that allowed SpaceX to make design and operational changes to recover the booster on this launch. The company said this landing attempt would test the bounds of recovery.
Second and last launch of Galileo navigation satellites on Falcon 9. Originally planned to launch on Soyuz, but canceled after the Russian invasion of Ukraine. Launch was shifted to the new Ariane 6 rocket, but the program was delayed. On the previous Galileo launch, the booster was expended due to a lack of fuel for a landing. However, that launch provided data that allowed SpaceX to make design and operational changes to recover the booster on this launch. The company said this landing attempt would test the bounds of recovery.
Flight No.
Second and last launch of Galileo navigation satellites on Falcon 9. Originally planned to launch on Soyuz, but canceled after the Russian invasion of Ukraine. Launch was shifted to the new Ariane 6 rocket, but the program was delayed. On the previous Galileo launch, the booster was expended due to a lack of fuel for a landing. However, that launch provided data that allowed SpaceX to make design and operational changes to recover the booster on this launch. The company said this landing attempt would test the bounds of recovery.
376
376
Flight No.
376
Date andtime (UTC)
September 20, 202413:50
Version,booster
F9 B5B1075‑13
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-17 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
377
377
Flight No.
377
Date andtime (UTC)
September 25, 202404:01
Version,booster
F9 B5B1081‑10
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-8 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
378
378
Flight No.
378
Date andtime (UTC)
September 28, 202417:17
Version,booster
F9 B5 B1085‑2
Launchsite
Cape Canaveral, SLC‑40
Payload
Crew-9 (Crew Dragon C212-4 Freedom)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO (ISS)
Customer
NASA (CTS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Long-duration mission to the International Space Station (ISS). First crewed mission to launch from SLC-40. The launch carried two members of the Expedition 72 crew, Nick Hague and Aleksandr Gorbunov, along with a small amount of cargo to the ISS. Due to technical issues with the Boeing Starliner Calypso the crew complement of the launch was reduced down to two and Barry E. Wilmore and Sunita Williams, the crew of the Boeing Crew Flight Test, joined the Crew-9 and Expedition 72 crew complement. The second stage experienced an off-nominal deorbit burn that ran for an extra 500 milliseconds, and while it landed safely in the ocean, it landed short of the targeted area. SpaceX said they would temporarily halt launches while time was spent understanding the root cause. Several days later the FAA said they would require an investigation into the failure before issuing a return to flight for the Falcon 9. It marked the third time in a span of three months that the Falcon 9 suffered an anomaly temporarily stopping launches. On October 11, the FAA approved the Falcon 9 to return to flight for low-Earth orbit missions, after granting approval for the Hera launch due to its heliocentric orbit.
Long-duration mission to the International Space Station (ISS). First crewed mission to launch from SLC-40. The launch carried two members of the Expedition 72 crew, Nick Hague and Aleksandr Gorbunov, along with a small amount of cargo to the ISS. Due to technical issues with the Boeing Starliner Calypso the crew complement of the launch was reduced down to two and Barry E. Wilmore and Sunita Williams, the crew of the Boeing Crew Flight Test, joined the Crew-9 and Expedition 72 crew complement. The second stage experienced an off-nominal deorbit burn that ran for an extra 500 milliseconds, and while it landed safely in the ocean, it landed short of the targeted area. SpaceX said they would temporarily halt launches while time was spent understanding the root cause. Several days later the FAA said they would require an investigation into the failure before issuing a return to flight for the Falcon 9. It marked the third time in a span of three months that the Falcon 9 suffered an anomaly temporarily stopping launches. On October 11, the FAA approved the Falcon 9 to return to flight for low-Earth orbit missions, after granting approval for the Hera launch due to its heliocentric orbit.
Flight No.
Long-duration mission to the International Space Station (ISS). First crewed mission to launch from SLC-40. The launch carried two members of the Expedition 72 crew, Nick Hague and Aleksandr Gorbunov, along with a small amount of cargo to the ISS. Due to technical issues with the Boeing Starliner Calypso the crew complement of the launch was reduced down to two and Barry E. Wilmore and Sunita Williams, the crew of the Boeing Crew Flight Test, joined the Crew-9 and Expedition 72 crew complement. The second stage experienced an off-nominal deorbit burn that ran for an extra 500 milliseconds, and while it landed safely in the ocean, it landed short of the targeted area. SpaceX said they would temporarily halt launches while time was spent understanding the root cause. Several days later the FAA said they would require an investigation into the failure before issuing a return to flight for the Falcon 9. It marked the third time in a span of three months that the Falcon 9 suffered an anomaly temporarily stopping launches. On October 11, the FAA approved the Falcon 9 to return to flight for low-Earth orbit missions, after granting approval for the Hera launch due to its heliocentric orbit.
379
379
Flight No.
379
Date andtime (UTC)
October 7, 202414:52
Version,booster
F9 B5B1061‑23
Launchsite
Cape Canaveral, SLC‑40
Payload
Hera
Payload mass
1,108 kg (2,443 lb)
Orbit
Heliocentric
Customer
ESA
Launchoutcome
Success
Boosterlanding
No attempt
Hera is a European Space Agency mission under its Space Safety program. Its primary goal is to study the aftermath of NASA's DART mission, which intentionally collided with the Didymos binary asteroid system. By analyzing the crater formed and the momentum transferred during the impact, Hera will help validate the kinetic impact method as a potential strategy for deflecting a near-Earth asteroid on a collision course with Earth. The mission will provide data on the efficiency of this technique. It also carries two nano-satellite CubeSats, called Milani and Juventas. This was the second booster to complete its 23rd flight. Although the Falcon 9 remained unable to launch following the Crew-9 mishap, the FAA granted an exemption for the Hera launch, as it did not involve a second-stage reentry. First stage was expended because all of its performance were needed to go to the heliocentric orbit.
Hera is a European Space Agency mission under its Space Safety program. Its primary goal is to study the aftermath of NASA's DART mission, which intentionally collided with the Didymos binary asteroid system. By analyzing the crater formed and the momentum transferred during the impact, Hera will help validate the kinetic impact method as a potential strategy for deflecting a near-Earth asteroid on a collision course with Earth. The mission will provide data on the efficiency of this technique. It also carries two nano-satellite CubeSats, called Milani and Juventas. This was the second booster to complete its 23rd flight. Although the Falcon 9 remained unable to launch following the Crew-9 mishap, the FAA granted an exemption for the Hera launch, as it did not involve a second-stage reentry. First stage was expended because all of its performance were needed to go to the heliocentric orbit.
Flight No.
Hera is a European Space Agency mission under its Space Safety program. Its primary goal is to study the aftermath of NASA's DART mission, which intentionally collided with the Didymos binary asteroid system. By analyzing the crater formed and the momentum transferred during the impact, Hera will help validate the kinetic impact method as a potential strategy for deflecting a near-Earth asteroid on a collision course with Earth. The mission will provide data on the efficiency of this technique. It also carries two nano-satellite CubeSats, called Milani and Juventas. This was the second booster to complete its 23rd flight. Although the Falcon 9 remained unable to launch following the Crew-9 mishap, the FAA granted an exemption for the Hera launch, as it did not involve a second-stage reentry. First stage was expended because all of its performance were needed to go to the heliocentric orbit.
FH 11
FH 11
Flight No.
FH 11
Date andtime (UTC)
October 14, 202416:06
Version,booster
Falcon Heavy B5 B1089 (core)
Launchsite
Kennedy, LC‑39A
Payload
Europa Clipper
Payload mass
6,065 kg (13,371 lb)
Orbit
Heliocentric
Customer
NASA
Launchoutcome
Success
Boosterlanding
No attempt
B1064‑6 (side)
B1064‑6 (side)
Flight No.
B1064‑6 (side)
Date andtime (UTC)
No attempt
B1065‑6 (side)
B1065‑6 (side)
Flight No.
B1065‑6 (side)
Date andtime (UTC)
No attempt
Europa Clipper will conduct a detailed survey of Europa and use a sophisticated suite of science instruments to investigate whether the icy moon has conditions suitable for life. Key mission objectives are to produce high-resolution images of Europa's surface, determine its composition, look for signs of recent or ongoing geological activity, measure the thickness of the moon's icy shell, search for subsurface lakes, and determine the depth and salinity of Europa's ocean. The spacecraft will fly past Mars and Earth before arriving at Jupiter in April 2030. At 45,648 km/h (28,364 mph) the launch had the highest-speed payload injection ever achieved by SpaceX, however to reach that speed, the core and side boosters were expended without grid fins and landing legs.
Europa Clipper will conduct a detailed survey of Europa and use a sophisticated suite of science instruments to investigate whether the icy moon has conditions suitable for life. Key mission objectives are to produce high-resolution images of Europa's surface, determine its composition, look for signs of recent or ongoing geological activity, measure the thickness of the moon's icy shell, search for subsurface lakes, and determine the depth and salinity of Europa's ocean. The spacecraft will fly past Mars and Earth before arriving at Jupiter in April 2030. At 45,648 km/h (28,364 mph) the launch had the highest-speed payload injection ever achieved by SpaceX, however to reach that speed, the core and side boosters were expended without grid fins and landing legs.
Flight No.
Europa Clipper will conduct a detailed survey of Europa and use a sophisticated suite of science instruments to investigate whether the icy moon has conditions suitable for life. Key mission objectives are to produce high-resolution images of Europa's surface, determine its composition, look for signs of recent or ongoing geological activity, measure the thickness of the moon's icy shell, search for subsurface lakes, and determine the depth and salinity of Europa's ocean. The spacecraft will fly past Mars and Earth before arriving at Jupiter in April 2030. At 45,648 km/h (28,364 mph) the launch had the highest-speed payload injection ever achieved by SpaceX, however to reach that speed, the core and side boosters were expended without grid fins and landing legs.
380
380
Flight No.
380
Date andtime (UTC)
October 15, 202406:10
Version,booster
F9 B5B1080‑11
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-10 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. This was the 100th SpaceX launch this year, a first by any launch agency in a particular calendar year.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. This was the 100th SpaceX launch this year, a first by any launch agency in a particular calendar year.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. This was the 100th SpaceX launch this year, a first by any launch agency in a particular calendar year.
381
381
Flight No.
381
Date andtime (UTC)
October 15, 202408:21
Version,booster
F9 B5B1071‑19
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-7 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
382
382
Flight No.
382
Date andtime (UTC)
October 18, 202423:31
Version,booster
F9 B5B1076‑17
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 8-19 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX's Falcon family surpassed the yearly world record for most launches attempted, previously set by themselves last year.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX's Falcon family surpassed the yearly world record for most launches attempted, previously set by themselves last year.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX's Falcon family surpassed the yearly world record for most launches attempted, previously set by themselves last year.
383
383
Flight No.
383
Date andtime (UTC)
October 20, 202405:13
Version,booster
F9 B5B1082‑7
Launchsite
Vandenberg, SLC-4E
Payload
OneWeb #20 (20 satellites)
Payload mass
2,954 kg (6,512 lb)
Orbit
Polar LEO
Customer
OneWeb
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Launch of 20 OneWeb satellites to expand internet constellation. 12th flight with short nozzle second stage. This was the 100th Falcon launch this year, the first by any rocket family in a particular calendar year. Moreover, with this launch, SpaceX's Falcon family surpassed the yearly world record for most successful launches, previously set by themselves last year.
Launch of 20 OneWeb satellites to expand internet constellation. 12th flight with short nozzle second stage. This was the 100th Falcon launch this year, the first by any rocket family in a particular calendar year. Moreover, with this launch, SpaceX's Falcon family surpassed the yearly world record for most successful launches, previously set by themselves last year.
Flight No.
Launch of 20 OneWeb satellites to expand internet constellation. 12th flight with short nozzle second stage. This was the 100th Falcon launch this year, the first by any rocket family in a particular calendar year. Moreover, with this launch, SpaceX's Falcon family surpassed the yearly world record for most successful launches, previously set by themselves last year.
384
384
Flight No.
384
Date andtime (UTC)
October 23, 202421:47
Version,booster
F9 B5B1073‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-61 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. This was the 100th Falcon launch attempt this year.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. This was the 100th Falcon launch attempt this year.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. This was the 100th Falcon launch attempt this year.
385
385
Flight No.
385
Date andtime (UTC)
October 24, 202417:13
Version,booster
F9 B5B1063‑21
Launchsite
Vandenberg, SLC-4E
Payload
NROL-167 (~17 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Fourth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. This was the 100th successful Falcon 9 launch this year, a record.
Fourth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. This was the 100th successful Falcon 9 launch this year, a record.
Flight No.
Fourth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. This was the 100th successful Falcon 9 launch this year, a record.
386
386
Flight No.
386
Date andtime (UTC)
October 26, 202421:47
Version,booster
F9 B5B1069‑19
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-8 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 100th successful Falcon 9 booster landing in 2024, a record.
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 100th successful Falcon 9 booster landing in 2024, a record.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 100th successful Falcon 9 booster landing in 2024, a record.
387
387
Flight No.
387
Date andtime (UTC)
October 30, 202412:07
Version,booster
F9 B5B1075‑14
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-9 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 200th launch of dedicated starlink missions.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 200th launch of dedicated starlink missions.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 200th launch of dedicated starlink missions.
388
388
Flight No.
388
Date andtime (UTC)
October 30, 202421:10
Version,booster
F9 B5B1078‑14
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-13 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
389
389
Flight No.
389
Date andtime (UTC)
November 5, 202402:29
Version,booster
F9 B5B1083‑5
Launchsite
Kennedy, LC‑39A
Payload
SpaceX CRS-31 (Cargo Dragon C208-5)
Payload mass
2,762 kg (6,089 lb)
Orbit
LEO (ISS)
Customer
NASA (CRS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Carried 2,762 kg (6,089 lb) of cargo and supplies to the International Space Station (ISS). CRS-31 is the first Dragon scheduled to perform a test "reboost" of the ISS on November 8, 2024, burning its aft-facing Draco thrusters for 12.5 minutes to counteract atmospheric drag on the station.
Carried 2,762 kg (6,089 lb) of cargo and supplies to the International Space Station (ISS). CRS-31 is the first Dragon scheduled to perform a test "reboost" of the ISS on November 8, 2024, burning its aft-facing Draco thrusters for 12.5 minutes to counteract atmospheric drag on the station.
Flight No.
Carried 2,762 kg (6,089 lb) of cargo and supplies to the International Space Station (ISS). CRS-31 is the first Dragon scheduled to perform a test "reboost" of the ISS on November 8, 2024, burning its aft-facing Draco thrusters for 12.5 minutes to counteract atmospheric drag on the station.
390
390
Flight No.
390
Date andtime (UTC)
November 7, 202420:19
Version,booster
F9 B5B1085‑3
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-77 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
391
391
Flight No.
391
Date andtime (UTC)
November 9, 202406:14
Version,booster
F9 B5B1081‑11
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-10 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
392
392
Flight No.
392
Date andtime (UTC)
11 November 202417:22
Version,booster
F9 B5B1067‑23
Launchsite
Kennedy, LC‑39A
Payload
Koreasat 6A
Payload mass
3,500 kg (7,700 lb)
Orbit
GTO
Customer
KT Sat
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
South Korean communications satellite built on the Spacebus-4000B2 platform. To be positioned at 116° east. First booster to successfully complete 23 launches and landings, surpassing booster B1062, which experienced a landing failure on its 23rd flight. Koreasat 6A weigh about 3.5 metric tons.
South Korean communications satellite built on the Spacebus-4000B2 platform. To be positioned at 116° east. First booster to successfully complete 23 launches and landings, surpassing booster B1062, which experienced a landing failure on its 23rd flight. Koreasat 6A weigh about 3.5 metric tons.
Flight No.
South Korean communications satellite built on the Spacebus-4000B2 platform. To be positioned at 116° east. First booster to successfully complete 23 launches and landings, surpassing booster B1062, which experienced a landing failure on its 23rd flight. Koreasat 6A weigh about 3.5 metric tons.
393
393
Flight No.
393
Date andtime (UTC)
November 11, 202421:28
Version,booster
F9 B5B1080‑12
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-69 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Second Starlink v2 mini mission to launch 24 satellites, the first was Group 6-39, launched on flight F9-303 in February 2024.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Second Starlink v2 mini mission to launch 24 satellites, the first was Group 6-39, launched on flight F9-303 in February 2024.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Second Starlink v2 mini mission to launch 24 satellites, the first was Group 6-39, launched on flight F9-303 in February 2024.
394
394
Flight No.
394
Date andtime (UTC)
November 14, 202405:23
Version,booster
F9 B5B1082‑8
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-11 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
395
395
Flight No.
395
Date andtime (UTC)
November 14, 202413:21
Version,booster
F9 B5B1076‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-68 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First time SpaceX has completed 17 Falcon launches in 31 days.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First time SpaceX has completed 17 Falcon launches in 31 days.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First time SpaceX has completed 17 Falcon launches in 31 days.
396
396
Flight No.
396
Date andtime (UTC)
November 17, 202422:28
Version,booster
F9 B5B1077‑16
Launchsite
Kennedy, LC‑39A
Payload
Optus-X/TD7
Payload mass
~4,000 kg (8,800 lb)
Orbit
GTO
Customer
Optus
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Northrop Grumman-built geostationary military communications satellite for Australian satellite operator Optus.
Northrop Grumman-built geostationary military communications satellite for Australian satellite operator Optus.
Flight No.
Northrop Grumman-built geostationary military communications satellite for Australian satellite operator Optus.
397
397
Flight No.
397
Date andtime (UTC)
November 18, 202405:53
Version,booster
F9 B5B1071‑20
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-12 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
398
398
Flight No.
398
Date andtime (UTC)
November 18, 202418:31
Version,booster
F9 B5B1073‑19
Launchsite
Cape Canaveral, SLC‑40
Payload
GSAT-20 (GSAT-N2)
Payload mass
4,700 kg (10,400 lb)
Orbit
GTO
Customer
New Space India LimitedDish TV
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Indian telecommunications satellite for Dish TV.
Indian telecommunications satellite for Dish TV.
Flight No.
Indian telecommunications satellite for Dish TV.
399
399
Flight No.
399
Date andtime (UTC)
November 21, 202416:07
Version,booster
F9 B5B1069‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-66 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. One of the fairing halves flew for a record 21st time. SLC-40 broke its own record for most launches from a single launch pad with 56 launches in this year, up from 55 launches last year.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. One of the fairing halves flew for a record 21st time. SLC-40 broke its own record for most launches from a single launch pad with 56 launches in this year, up from 55 launches last year.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. One of the fairing halves flew for a record 21st time. SLC-40 broke its own record for most launches from a single launch pad with 56 launches in this year, up from 55 launches last year.
400
400
Flight No.
400
Date andtime (UTC)
November 24, 202405:25
Version,booster
F9 B5B1075‑15
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-13 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 400th launch of Falcon 9 launch vehicle and 100th launch from SLC-4E.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 400th launch of Falcon 9 launch vehicle and 100th launch from SLC-4E.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 400th launch of Falcon 9 launch vehicle and 100th launch from SLC-4E.
401
401
Flight No.
401
Date andtime (UTC)
November 25, 202410:02
Version,booster
F9 B5B1080‑13
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-1 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites, including 12 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. New first stage turnaround record of 13 days, 12 hours, and 44 minutes from this booster's previous launch (Flight 393) on November 11, the previous record was 21 days.
Launch of 23 Starlink v2 mini satellites, including 12 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. New first stage turnaround record of 13 days, 12 hours, and 44 minutes from this booster's previous launch (Flight 393) on November 11, the previous record was 21 days.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 12 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. New first stage turnaround record of 13 days, 12 hours, and 44 minutes from this booster's previous launch (Flight 393) on November 11, the previous record was 21 days.
402
402
Flight No.
402
Date andtime (UTC)
November 27, 202404:41
Version,booster
F9 B5B1078‑15
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-76 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 400th successful mission and Falcon's 375th overall successful landing.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 400th successful mission and Falcon's 375th overall successful landing.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 400th successful mission and Falcon's 375th overall successful landing.
403
403
Flight No.
403
Date andtime (UTC)
November 30, 202405:00
Version,booster
F9 B5B1083‑6
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-65 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First time SpaceX has completed 15 Falcon launches in a calendar month.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First time SpaceX has completed 15 Falcon launches in a calendar month.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First time SpaceX has completed 15 Falcon launches in a calendar month.
404
404
Flight No.
404
Date andtime (UTC)
November 30, 202408:10
Version,booster
F9 B5B1088‑1
Launchsite
Vandenberg, SLC-4E
Payload
NROL-126 (2 Starshield satellites) + Starlink: Group N-01 (20 satellites)
Payload mass
~16,100 kg (35,500 lb)(Starlink)
Orbit
LEO
Customer
NRO/SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Fifth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office, with 20 Starlink v2 mini satellites as rideshare. First time SpaceX has completed 16 Falcon and 17 SpaceX (including Starship IFT-6) launches in a calendar month.
Fifth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office, with 20 Starlink v2 mini satellites as rideshare. First time SpaceX has completed 16 Falcon and 17 SpaceX (including Starship IFT-6) launches in a calendar month.
Flight No.
Fifth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office, with 20 Starlink v2 mini satellites as rideshare. First time SpaceX has completed 16 Falcon and 17 SpaceX (including Starship IFT-6) launches in a calendar month.
405
405
Flight No.
405
Date andtime (UTC)
December 4, 202410:13
Version,booster
F9 B5B1067‑24
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-70 (24 satellites)
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 24th time, new record.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 24th time, new record.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 24th time, new record.
406
406
Flight No.
406
Date andtime (UTC)
December 5, 202403:05
Version,booster
F9 B5B1081‑12
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 9-14 (20 satellites)
Payload mass
~16,300 kg (35,900 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 20 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
407
407
Flight No.
407
Date andtime (UTC)
December 5, 202416:10
Version,booster
F9 B5B1076‑19
Launchsite
Kennedy, LC‑39A
Payload
SXM-9
Payload mass
7,000 kg (15,000 lb)
Orbit
GTO
Customer
Sirius XM
Launchoutcome
Success
Boosterlanding
Success (JRTI)
SXM-9 is a high-powered digital audio radio satellite for SiriusXM. Manufactured by Maxar Technologies on their 1300-class platform, the SXM-9 features a reflector that can unfurl to span nearly 10 meters (33 ft) to transmit. SpaceX stated that this was the 100th booster landing on JRTI. B1076 became the first booster to fly ten times in one calendar year on December 5, 2024.
SXM-9 is a high-powered digital audio radio satellite for SiriusXM. Manufactured by Maxar Technologies on their 1300-class platform, the SXM-9 features a reflector that can unfurl to span nearly 10 meters (33 ft) to transmit. SpaceX stated that this was the 100th booster landing on JRTI. B1076 became the first booster to fly ten times in one calendar year on December 5, 2024.
Flight No.
SXM-9 is a high-powered digital audio radio satellite for SiriusXM. Manufactured by Maxar Technologies on their 1300-class platform, the SXM-9 features a reflector that can unfurl to span nearly 10 meters (33 ft) to transmit. SpaceX stated that this was the 100th booster landing on JRTI. B1076 became the first booster to fly ten times in one calendar year on December 5, 2024.
408
408
Flight No.
408
Date andtime (UTC)
December 8, 202405:12
Version,booster
F9 B5B1086‑2
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-5 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Booster 1086, used on this mission, was previously used as a Falcon Heavy side booster on the GOES-U mission. This marks the second time (after B1052) SpaceX has converted a Falcon Heavy side booster into a traditional Falcon 9.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Booster 1086, used on this mission, was previously used as a Falcon Heavy side booster on the GOES-U mission. This marks the second time (after B1052) SpaceX has converted a Falcon Heavy side booster into a traditional Falcon 9.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Booster 1086, used on this mission, was previously used as a Falcon Heavy side booster on the GOES-U mission. This marks the second time (after B1052) SpaceX has converted a Falcon Heavy side booster into a traditional Falcon 9.
409
409
Flight No.
409
Date andtime (UTC)
December 13, 202421:55
Version,booster
F9 B5B1082‑9
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 11-2 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 100th landing on droneship in 2024, a record.
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 100th landing on droneship in 2024, a record.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 100th landing on droneship in 2024, a record.
410
410
Flight No.
410
Date andtime (UTC)
December 17, 202400:52
Version,booster
F9 B5B1085‑4
Launchsite
Cape Canaveral, SLC‑40
Payload
GPS III-7 (RRT-1)
Payload mass
~4,350 kg (9,590 lb)
Orbit
MEO
Customer
USSF
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch is part of Phase 2 US Air Force contract awarded in 2022. GPS III-7, originally scheduled to launch on a ULA Vulcan rocket, was reassigned to the Falcon 9, as a part of Rapid Response Trailblazer-1 (RRT-1) mission, following uncertainties in Vulcan's readiness. As a result, GPS III-10, originally planned to launch on the Falcon 9, will now launch on Vulcan. Sixth time a second stage featured Falcon medium coast mission-extension kit.
Launch is part of Phase 2 US Air Force contract awarded in 2022. GPS III-7, originally scheduled to launch on a ULA Vulcan rocket, was reassigned to the Falcon 9, as a part of Rapid Response Trailblazer-1 (RRT-1) mission, following uncertainties in Vulcan's readiness. As a result, GPS III-10, originally planned to launch on the Falcon 9, will now launch on Vulcan. Sixth time a second stage featured Falcon medium coast mission-extension kit.
Flight No.
Launch is part of Phase 2 US Air Force contract awarded in 2022. GPS III-7, originally scheduled to launch on a ULA Vulcan rocket, was reassigned to the Falcon 9, as a part of Rapid Response Trailblazer-1 (RRT-1) mission, following uncertainties in Vulcan's readiness. As a result, GPS III-10, originally planned to launch on the Falcon 9, will now launch on Vulcan. Sixth time a second stage featured Falcon medium coast mission-extension kit.
411
411
Flight No.
411
Date andtime (UTC)
December 17, 202413:19
Version,booster
F9 B5B1063‑22
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-149 (22 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Sixth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office.
Sixth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office.
Flight No.
Sixth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office.
412
412
Flight No.
412
Date andtime (UTC)
December 17, 202422:26
Version,booster
F9 B5B1090‑1
Launchsite
Kennedy, LC‑39A
Payload
O3b mPOWER 7 & 8
Payload mass
3,400 kg (7,500 lb)
Orbit
MEO
Customer
SES
Launchoutcome
Success
Boosterlanding
Success (JRTI)
In August 2020, SES expanded the O3b mPOWER contract with two additional launches, raising the number of satellites from 7 to 11 satellites at nearly 2 tons each. One of the fairings halves made its 22nd flight.
In August 2020, SES expanded the O3b mPOWER contract with two additional launches, raising the number of satellites from 7 to 11 satellites at nearly 2 tons each. One of the fairings halves made its 22nd flight.
Flight No.
In August 2020, SES expanded the O3b mPOWER contract with two additional launches, raising the number of satellites from 7 to 11 satellites at nearly 2 tons each. One of the fairings halves made its 22nd flight.
413
413
Flight No.
413
Date andtime (UTC)
December 21, 202411:34
Version,booster
F9 B5B1071‑21
Launchsite
Vandenberg, SLC-4E
Payload
Bandwagon-2 (30 payload smallsat rideshare)425 Project Flight 3
Payload mass
800 kg (1,800 lb)(main satellite) + unknown additional
Orbit
LEO
Customer
VariousRepublic of Korea Armed Forces
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Dedicated SmallSat Rideshare mission to 45 degree inclination 550–600 km altitude. 425 Project Flight 3 is a military SAR satellite of South Korea with a mass of ~800 kg.
Dedicated SmallSat Rideshare mission to 45 degree inclination 550–600 km altitude. 425 Project Flight 3 is a military SAR satellite of South Korea with a mass of ~800 kg.
Flight No.
Dedicated SmallSat Rideshare mission to 45 degree inclination 550–600 km altitude. 425 Project Flight 3 is a military SAR satellite of South Korea with a mass of ~800 kg.
414
414
Flight No.
414
Date andtime (UTC)
December 23, 202405:35
Version,booster
F9 B5B1080‑14
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 12-2 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
415
415
Flight No.
415
Date andtime (UTC)
December 29, 202401:58
Version,booster
F9 B5B1075‑16
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 11-3 (22 satellites)
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
416
416
Flight No.
416
Date andtime (UTC)
December 29, 202405:00
Version,booster
F9 B5B1083‑7
Launchsite
Cape Canaveral, SLC‑40
Payload
Astranis: From One to Many (4 satellites)
Payload mass
1,600 kg (3,500 lb)
Orbit
GTO
Customer
Astranis
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Dedicated Falcon 9 launch to put four Astranis MicroGEO communications satellites into service. The MicroGEOs were launched to a custom geostationary orbit, with the four satellites individually conducting on-orbit maneuvers to inject themselves into their orbital slots. The four spacecraft were mounted to a standard adapter ring, known as an ESPA-Grande, for ease of deployment. B1083 supported the Astranis mission, previously it was B1077, but due to some problem identified, the first stage of this mission was changed.
Dedicated Falcon 9 launch to put four Astranis MicroGEO communications satellites into service. The MicroGEOs were launched to a custom geostationary orbit, with the four satellites individually conducting on-orbit maneuvers to inject themselves into their orbital slots. The four spacecraft were mounted to a standard adapter ring, known as an ESPA-Grande, for ease of deployment. B1083 supported the Astranis mission, previously it was B1077, but due to some problem identified, the first stage of this mission was changed.
Flight No.
Dedicated Falcon 9 launch to put four Astranis MicroGEO communications satellites into service. The MicroGEOs were launched to a custom geostationary orbit, with the four satellites individually conducting on-orbit maneuvers to inject themselves into their orbital slots. The four spacecraft were mounted to a standard adapter ring, known as an ESPA-Grande, for ease of deployment. B1083 supported the Astranis mission, previously it was B1077, but due to some problem identified, the first stage of this mission was changed.
417
417
Flight No.
417
Date andtime (UTC)
December 31, 202405:39
Version,booster
F9 B5B1078‑16
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 12-6 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Date andtime (UTC)
Version,booster
Launchsite
Payload
Payload mass
Orbit
Customer
Launchoutcome
Boosterlanding
286
January 3, 202403:44
F9 B5B1082‑1
Vandenberg, SLC‑4E
Starlink: Group 7-9 (22 satellites)
~16,800 kg (37,000 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites, including the first six to feature direct-to-cell connectivity, to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
287
January 3, 202423:04
F9 B5B1076‑10
Cape Canaveral, SLC‑40
Ovzon-3
1,800 kg (4,000 lb)
GTO
Ovzon
Success
Success (LZ‑1)
Broadband internet provider satellite. First Falcon 9 launch to GTO with a return-to-launch-site (RTLS) landing. First commercial satellite with Roll Out Solar Array that was deployed on January 10, 2024.
288
January 7, 202422:35
F9 B5B1067‑16
Cape Canaveral, SLC‑40
Starlink: Group 6-35 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Falcon record for total time from hangar rollout to launch at 6 hours, 33 minutes.
289
January 14, 202408:59
F9 B5B1061‑18
Vandenberg, SLC‑4E
Starlink: Group 7-10 (22 satellites)
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. Second booster to fly for the 18th time.
290
January 15, 202401:52
F9 B5B1073‑12
Cape Canaveral, SLC‑40
Starlink: Group 6-37 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. Shortest landing-to-landing turnaround of a droneship, at about 7 days. 300th successful mission for SpaceX. Following this launch, SLC-40 was deactivated for planned maintenance and upgrades and would not see another flight until January 30.
291
January 18, 202421:49
F9 B5B1080‑5
Kennedy, LC‑39A
Ax-3 (Crew Dragon C212-3 Freedom)
~13,000 kg (29,000 lb)
LEO (ISS)
Axiom Space
Success
Success (LZ‑1)
Axiom contracted for three additional private crewed missions in June 2021. The crew consisted of American Michael López-Alegría, Italian astronaut Walter Villadei, ESA Swedish Project astronaut Marcus Wandt and Turkish astronaut Alper Gezeravcı.
292
January 24, 202400:35
F9 B5B1063‑16
Vandenberg, SLC‑4E
Starlink: Group 7-11 (22 satellites)
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
293
January 29, 202401:10
F9 B5B1062‑18
Kennedy, LC‑39A
Starlink: Group 6-38 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 15th time.
294
January 29, 202405:57
F9 B5B1075‑9
Vandenberg, SLC‑4E
Starlink: Group 7-12 (22 satellites)
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This landing marked the fastest turnaround of a droneship at just over 5 days. The launch also marked the fastest turnaround time of SLC-4E at 5 days, 5 hours, 22 minutes, and 20 seconds, beating previous record of 6.5 days.
295
January 30, 202417:07
F9 B5B1077‑10
Cape Canaveral, SLC‑40
CRS NG-20 (S.S. Patricia "Patty" Hilliard Robertson)
3,726 kg (8,214 lb)
LEO (ISS)
Northrop Grumman (CRS)
Success
Success (LZ‑1)
First Cygnus flight on Falcon 9. Northrop Grumman acquired four flights from SpaceX while a replacement rocket stage is developed for its Antares rocket. Eighth flight with short nozzle second stage, which has lower production cost and faster build time but is only suitable for missions with lower performance requirements. SpaceX modified the fairing to add a hatch for late cargo loads onto the spacecraft via mobile cleanroom. Unmanned Enhanced Cygnus cargo spacecraft named in honor of Patricia “Patty” Hilliard Robertson.
296
February 8, 202406:33
F9 B5B1081‑4
Cape Canaveral, SLC‑40
PACE
1,694 kg (3,735 lb)
SSO
NASA (LSP)
Success
Success (LZ‑1)
This was a mission to launch the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) spacecraft, a 1.7 tonnes (3,700 lb), US$800 million craft, that orbits at a 676 km (420 mi) altitude. It has the Ocean Color Imager intended to study phytoplankton in the ocean, as well as two polarimeters for studying properties of clouds, aerosols and the ocean. The launch price was US$80.4 million.
297
February 10, 202400:34
F9 B5B1071‑14
Vandenberg, SLC‑4E
Starlink: Group 7-13 (22 satellites)
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation.
298
February 14, 202422:30
F9 B5B1078‑7
Cape Canaveral, SLC‑40
USSF-124 (6 satellites)
Unknown
LEO
USSF / SDA
Success
Success (LZ‑2)
Launch included two HBTSS and four SDA Tranche 0 Tracking Layer satellites. Launch part of Phase 2 US Space Force contract awarded in 2022. Second time a second stage featured Falcon medium coast mission-extension kit. 1st time flying a fairing half for the 15th time.
299
February 15, 202406:05
F9 B5B1060‑18
Kennedy, LC‑39A
IM-1 Nova-C Odysseus lander
1,931 kg (4,257 lb)
TLI
NASA (CLPS) / Intuitive Machines
Success
Success (LZ‑1)
Second mission of NASA's Commercial Lunar Payload Services program, and first private American company to successfully land a spacecraft on the Moon. The lander carried five payloads of up to 100 kg (220 lb) total (LRA, NDL, LN-1, SCALPSS, and ROLSES), a deployable camera namely, EagleCam and transmit data from the lunar surface in a mission lasting 2 weeks. The LC-39A pad's transporter erector was modified to fuel cryogenic liquid oxygen and liquid methane into the payload before liftoff.
300
February 15, 202421:34
F9 B5B1082‑2
Vandenberg, SLC‑4E
Starlink: Group 7-14 (22 satellites)
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the 300th Falcon 9 launch, the 200th consecutive successful landing of a booster, and the first time SpaceX launched three rockets within 24 hours. SpaceX removed the stiffener ring around the nozzle of Merlin Vacuum Engine on Starlink missions starting with this launch.
301
February 20, 202420:11
F9 B5B1067‑17
Cape Canaveral, SLC‑40
Telkomsat HTS 113BT
4,000 kg (8,800 lb)
GTO
Telkom Indonesia
Success
Success (JRTI)
Indonesian satellite to provide more capacity over Indonesia. 300th successful Falcon 9 mission.
302
February 23, 202404:11
F9 B5B1061‑19
Vandenberg, SLC‑4E
Starlink: Group 7-15 (22 satellites)
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. This mission marked the second time a booster was flown for the 19th time and featured a Merlin engine that was being used on its 22nd mission beating its own record, having already surpassed Space Shuttle Main Engine no. 2019's record of 19 flights.
303
February 25, 202422:06
F9 B5B1069‑13
Cape Canaveral, SLC‑40
Starlink: Group 6-39 (24 satellites)
~17,500 kg (38,600 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 24 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. New mass record on Falcon 9 taking 17,500 kg (38,600 lb) to low Earth orbit.
304
February 29, 202415:30
F9 B5B1076‑11
Cape Canaveral, SLC‑40
Starlink: Group 6-40 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
305
March 4, 202403:53
F9 B5B1083‑1
Kennedy, LC‑39A
Crew-8 (Crew Dragon C206-5 Endeavour)
~13,000 kg (29,000 lb)
LEO (ISS)
NASA (CTS)
Success
Success (LZ‑1)
After first six Crew Dragon launches of NASA USCV award, a further three missions for SpaceX were announced on December 3, 2021. These launches carry up to four astronauts and 100 kg (220 lb) of cargo to the ISS as well as feature a lifeboat function to evacuate astronauts from ISS in case of an emergency. SpaceX flew its 50th astronaut on this Crew Dragon launch.
306
March 4, 202422:05
F9 B5B1081‑5
Vandenberg, SLC‑4E
Transporter-10 (53 payload smallsat rideshare)
Unknown
SSO
Various
Success
Success (LZ‑4)
Dedicated SmallSat Rideshare mission to sun-synchronous orbit including the 1,000th satellite of SpaceX rideshare program. Third time a second stage featured Falcon medium coast mission-extension kit.
307
March 4, 202423:56
F9 B5B1073‑13
Cape Canaveral, SLC‑40
Starlink: Group 6-41 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation. SpaceX set a new record for the shortest time between two Falcon launches at 1 hour and 51 minutes. The previous record time was 2 hours and 54 minutes, set between the USSF-52 (Boeing X-37B OTV-7) and Starlink Group 6–36 missions on December 29, 2023. Thus for the first time, SpaceX launch operations for a mission coincided with that of a preceding launch (in this case, payload deployment of Transporter-10:(53 payloads SmallSat Rideshare). It was a new record for the shortest time between three Falcon launches at 20 hours and 3 minutes. The previous record time was 23 hours and 4 minutes, set between flights 298 and 300 on February 14/15, 2024.
308
March 10, 202423:05
F9 B5B1077‑11
Cape Canaveral, SLC‑40
Starlink: Group 6-43 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 530 km (330 mi) orbit at an inclination of 43° to expand internet constellation.
309
March 11, 202404:09
F9 B5B1063‑17
Vandenberg, SLC‑4E
Starlink: Group 7-17 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 525 km (326 mi) orbit at an inclination of 53° to expand internet constellation. First time 23 Starlink v2 mini satellites are launched on a flight from Vandenberg.
310
March 16, 202400:21
F9 B5B1062‑19
Kennedy, LC‑39A
Starlink: Group 6-44 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (ASOG)
· Past launches › 2025
418
418
Flight No.
418
Date andtime (UTC)
January 4, 202501:27
Version,booster
F9 B5B1073‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Thuraya 4-NGS
Payload mass
5,000 kg (11,000 lb)
Orbit
GTO
Customer
Thuraya
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Planned replacement for Thuraya 2 and 3.
Planned replacement for Thuraya 2 and 3.
Flight No.
Planned replacement for Thuraya 2 and 3.
419
419
Flight No.
419
Date andtime (UTC)
January 6, 202520:43
Version,booster
F9 B5B1077‑17
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6‑71
Payload mass
~17,500 kg (38,600 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 23rd time.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 23rd time.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 23rd time.
420
420
Flight No.
420
Date andtime (UTC)
January 8, 202515:27
Version,booster
F9 B5B1086‑3
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 12-11 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
421
421
Flight No.
421
Date andtime (UTC)
January 10, 202503:53
Version,booster
F9 B5B1071‑22
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-153 (22 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Seventh launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
Seventh launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
Flight No.
Seventh launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
422
422
Flight No.
422
Date andtime (UTC)
January 10, 202519:11
Version,booster
F9 B5B1067‑25
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-12 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 25th time, new record.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 25th time, new record.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 25th time, new record.
423
423
Flight No.
423
Date andtime (UTC)
January 13, 202516:47
Version,booster
F9 B5B1080‑15
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-4 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
424
424
Flight No.
424
Date andtime (UTC)
January 14, 202519:09
Version,booster
F9 B5B1088‑2
Launchsite
Vandenberg, SLC‑4E
Payload
Transporter-12 (131 payload smallsat rideshare)
Payload mass
2,000 kg (4,400 lb)
Orbit
SSO
Customer
Various
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Dedicated SmallSat Rideshare mission to sun-synchronous orbit.
Dedicated SmallSat Rideshare mission to sun-synchronous orbit.
Flight No.
Dedicated SmallSat Rideshare mission to sun-synchronous orbit.
425
425
Flight No.
425
Date andtime (UTC)
January 15, 202506:11
Version,booster
F9 B5B1085‑5
Launchsite
Kennedy, LC‑39A
Payload
Blue Ghost Mission 1
Payload mass
2,517 kg (5,549 lb)
Orbit
TLI
Customer
Firefly Aerospace & NASA (CLPS)
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Hakuto-R Mission 2
Hakuto-R Mission 2
Flight No.
Hakuto-R Mission 2
Date andtime (UTC)
ispace
Both Blue Ghost Mission 1 and Hakuto-R Mission 2 (Resilience lander) launched together on a single rocket (first of its kind deep space lander launch). Blue Ghost will carry 10 payloads for NASA's Commercial Lunar Payload Services task order 19D mission and other separately contracted payloads. Resilience is the second lunar lander built by Japanese company ispace and will deliver TENACIOUS mini rover to the lunar surface. To house both landers in the payload fairing, SpaceX used a new dual-launch carrying structure.
Both Blue Ghost Mission 1 and Hakuto-R Mission 2 (Resilience lander) launched together on a single rocket (first of its kind deep space lander launch). Blue Ghost will carry 10 payloads for NASA's Commercial Lunar Payload Services task order 19D mission and other separately contracted payloads. Resilience is the second lunar lander built by Japanese company ispace and will deliver TENACIOUS mini rover to the lunar surface. To house both landers in the payload fairing, SpaceX used a new dual-launch carrying structure.
Flight No.
Both Blue Ghost Mission 1 and Hakuto-R Mission 2 (Resilience lander) launched together on a single rocket (first of its kind deep space lander launch). Blue Ghost will carry 10 payloads for NASA's Commercial Lunar Payload Services task order 19D mission and other separately contracted payloads. Resilience is the second lunar lander built by Japanese company ispace and will deliver TENACIOUS mini rover to the lunar surface. To house both landers in the payload fairing, SpaceX used a new dual-launch carrying structure.
426
426
Flight No.
426
Date andtime (UTC)
January 21, 202505:24
Version,booster
F9 B5B1083‑8
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 13-1 (21 satellites) + 2 Starshield satellites
Payload mass
~15,300 kg (33,700 lb)(Starlink)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation and two SpaceX Starshield satellites as rideshare. 1st time flying a fairing half for the 24th time.
Launch of 21 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation and two SpaceX Starshield satellites as rideshare. 1st time flying a fairing half for the 24th time.
Flight No.
Launch of 21 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation and two SpaceX Starshield satellites as rideshare. 1st time flying a fairing half for the 24th time.
427
427
Flight No.
427
Date andtime (UTC)
January 21, 202515:45
Version,booster
F9 B5B1082‑10
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-8 (27 satellites)
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Mission marks 400th Falcon booster landing.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Mission marks 400th Falcon booster landing.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Mission marks 400th Falcon booster landing.
428
428
Flight No.
428
Date andtime (UTC)
January 24, 202514:07
Version,booster
F9 B5B1063‑23
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-6 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX has broken its pad turnaround time record at Space Launch Complex 4 East. Previous record was 3 days, 15 hours, 23 minutes, and 40 seconds, this has now gone down to 2 days, 22 hours, 21 minutes, and 10 seconds.
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX has broken its pad turnaround time record at Space Launch Complex 4 East. Previous record was 3 days, 15 hours, 23 minutes, and 40 seconds, this has now gone down to 2 days, 22 hours, 21 minutes, and 10 seconds.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX has broken its pad turnaround time record at Space Launch Complex 4 East. Previous record was 3 days, 15 hours, 23 minutes, and 40 seconds, this has now gone down to 2 days, 22 hours, 21 minutes, and 10 seconds.
429
429
Flight No.
429
Date andtime (UTC)
January 27, 202522:05
Version,booster
F9 B5B1076‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-7 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
430
430
Flight No.
430
Date andtime (UTC)
January 30, 202501:34
Version,booster
F9 B5B1073‑21
Launchsite
Kennedy, LC‑39A
Payload
Spainsat NG I
Payload mass
6,100 kg (13,400 lb)
Orbit
GTO
Customer
Hisdesat
Launchoutcome
Success
Boosterlanding
No attempt
Communications satellite built on the Eurostar-Neo platform for the Spanish government. First of two launches for the Spainsat NG program. The booster was expended due to the performance needed to launch the satellite's mass to a geostationary transfer orbit.
Communications satellite built on the Eurostar-Neo platform for the Spanish government. First of two launches for the Spainsat NG program. The booster was expended due to the performance needed to launch the satellite's mass to a geostationary transfer orbit.
Flight No.
Communications satellite built on the Eurostar-Neo platform for the Spanish government. First of two launches for the Spainsat NG program. The booster was expended due to the performance needed to launch the satellite's mass to a geostationary transfer orbit.
431
431
Flight No.
431
Date andtime (UTC)
February 1, 202523:02
Version,booster
F9 B5B1075‑17
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 11-4
Payload mass
~16,700 kg (36,800 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Even though the second stage was expected to deorbit for a controlled splashdown, the second stage's deorbit burn did not occur, causing it to remain in orbit. This was the third time in six months that a second stage had encountered a problem in flight. The stage made its uncontrolled reentry over Poland between 04:46 and 04:48, local time, on February 19. Several tanks that crashed in the western part of the country were collected by the Polish police.
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Even though the second stage was expected to deorbit for a controlled splashdown, the second stage's deorbit burn did not occur, causing it to remain in orbit. This was the third time in six months that a second stage had encountered a problem in flight. The stage made its uncontrolled reentry over Poland between 04:46 and 04:48, local time, on February 19. Several tanks that crashed in the western part of the country were collected by the Polish police.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Even though the second stage was expected to deorbit for a controlled splashdown, the second stage's deorbit burn did not occur, causing it to remain in orbit. This was the third time in six months that a second stage had encountered a problem in flight. The stage made its uncontrolled reentry over Poland between 04:46 and 04:48, local time, on February 19. Several tanks that crashed in the western part of the country were collected by the Polish police.
432
432
Flight No.
432
Date andtime (UTC)
February 4, 202510:15
Version,booster
F9 B5B1069‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-3 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 25th time.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 25th time.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 25th time.
433
433
Flight No.
433
Date andtime (UTC)
February 4, 202523:13
Version,booster
F9 B5B1086‑4
Launchsite
Kennedy, LC‑39A
Payload
WorldView Legion 5 & 6 (2 satellites)
Payload mass
1,500 kg (3,300 lb)
Orbit
LEO
Customer
Maxar Technologies
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Two earth observation satellites built by Maxar Technologies. Seventh time a second stage featured Falcon medium coast mission-extension kit.
Two earth observation satellites built by Maxar Technologies. Seventh time a second stage featured Falcon medium coast mission-extension kit.
Flight No.
Two earth observation satellites built by Maxar Technologies. Seventh time a second stage featured Falcon medium coast mission-extension kit.
434
434
Flight No.
434
Date andtime (UTC)
February 8, 202519:18
Version,booster
F9 B5B1078‑17
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-9 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
435
435
Flight No.
435
Date andtime (UTC)
February 11, 202502:09
Version,booster
F9 B5B1071‑23
Launchsite
Vandenberg, SLC-4E
Payload
Starlink: Group 11-10
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
436
436
Flight No.
436
Date andtime (UTC)
February 11, 202518:53
Version,booster
F9 B5B1077‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-18 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
437
437
Flight No.
437
Date andtime (UTC)
February 15, 202506:14
Version,booster
F9 B5 B1067‑26
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-8
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 26th time, new record. 1st time flying a fairing half for the 26th time. Both surpassed Space Shuttle Endeavour's tally of 25 reflights, now only trailing behind Space Shuttle Atlantis and Space Shuttle Discovery.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 26th time, new record. 1st time flying a fairing half for the 26th time. Both surpassed Space Shuttle Endeavour's tally of 25 reflights, now only trailing behind Space Shuttle Atlantis and Space Shuttle Discovery.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 26th time, new record. 1st time flying a fairing half for the 26th time. Both surpassed Space Shuttle Endeavour's tally of 25 reflights, now only trailing behind Space Shuttle Atlantis and Space Shuttle Discovery.
438
438
Flight No.
438
Date andtime (UTC)
February 18, 202523:21
Version,booster
F9 B5B1080‑16
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-12 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster landing in waters belonging to another nation (Exuma Sound) as part of an agreement with The Bahamas.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster landing in waters belonging to another nation (Exuma Sound) as part of an agreement with The Bahamas.
Flight No.
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster landing in waters belonging to another nation (Exuma Sound) as part of an agreement with The Bahamas.
439
439
Flight No.
439
Date andtime (UTC)
February 21, 202515:19
Version,booster
F9 B5B1076‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-14 (23 satellites)
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
440
440
Flight No.
440
Date andtime (UTC)
February 23, 202501:38
Version,booster
F9 B5B1082‑11
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-1 (22 satellites)
Payload mass
~16,800 kg (37,000 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 70° inclination orbit to expand internet constellation.
Launch of 22 Starlink v2 mini satellites to a 70° inclination orbit to expand internet constellation.
Flight No.
Launch of 22 Starlink v2 mini satellites to a 70° inclination orbit to expand internet constellation.
441
441
Flight No.
441
Date andtime (UTC)
February 27, 202500:16
Version,booster
F9 B5B1083‑9
Launchsite
Kennedy, LC‑39A
Payload
IM-2 Nova-C "Athena" lunar landerLunar TrailblazerBrokkr-2 OdinChimera-1TBD
Payload mass
Unknown
Orbit
TLI
Customer
NASA (CLPS)Intuitive MachinesAstroForgeEpic AerospaceTBD
Launchoutcome
Success
Boosterlanding
Success (ASOG)
IM-2 South Pole Mission, flying the second Nova-C lunar lander. The Polar Resources Ice Mining Experiment 1 (PRIME-1) payload will be delivered to the lunar south pole near Shackleton Crater for the CLPS program. Odin will travel to near Earth asteroid 2022 OB5. Two Geostationary satellites are undisclosed. 100th booster landing on ASOG.
IM-2 South Pole Mission, flying the second Nova-C lunar lander. The Polar Resources Ice Mining Experiment 1 (PRIME-1) payload will be delivered to the lunar south pole near Shackleton Crater for the CLPS program. Odin will travel to near Earth asteroid 2022 OB5. Two Geostationary satellites are undisclosed. 100th booster landing on ASOG.
Flight No.
IM-2 South Pole Mission, flying the second Nova-C lunar lander. The Polar Resources Ice Mining Experiment 1 (PRIME-1) payload will be delivered to the lunar south pole near Shackleton Crater for the CLPS program. Odin will travel to near Earth asteroid 2022 OB5. Two Geostationary satellites are undisclosed. 100th booster landing on ASOG.
442
442
Flight No.
442
Date andtime (UTC)
February 27, 202503:34
Version,booster
F9 B5B1092‑1
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-13 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Inityially, there was some uncertainty on whether booster B1092 was used or a different booster was used, as according to SpaceX it was the booster's first flight, but was comfirmed in the coming days. 1st time flying a fairing half for the 27th time.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Inityially, there was some uncertainty on whether booster B1092 was used or a different booster was used, as according to SpaceX it was the booster's first flight, but was comfirmed in the coming days. 1st time flying a fairing half for the 27th time.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Inityially, there was some uncertainty on whether booster B1092 was used or a different booster was used, as according to SpaceX it was the booster's first flight, but was comfirmed in the coming days. 1st time flying a fairing half for the 27th time.
443
443
Flight No.
443
Date andtime (UTC)
March 3, 202502:24
Version,booster
F9 B5B1086‑5
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-20 (21 satellites)
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Failure (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. A fuel leak started in one of the nine Merlin engines in the first stage 85 seconds after liftoff. However, because of the altitude of the rocket, there was no oxygen to ignite the fuel, allowing the first stage to completed its ascent without issue. However, 45 seconds after the booster landed, enough oxygen had entered the engine compartment where the leak occurred, creating a large fire. The fire resulted in the structural failure of one of the landing legs, leading to the booster tipping over and being destroyed. SpaceX voluntarily paused launches for more than a week as it investigated the issue.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. A fuel leak started in one of the nine Merlin engines in the first stage 85 seconds after liftoff. However, because of the altitude of the rocket, there was no oxygen to ignite the fuel, allowing the first stage to completed its ascent without issue. However, 45 seconds after the booster landed, enough oxygen had entered the engine compartment where the leak occurred, creating a large fire. The fire resulted in the structural failure of one of the landing legs, leading to the booster tipping over and being destroyed. SpaceX voluntarily paused launches for more than a week as it investigated the issue.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. A fuel leak started in one of the nine Merlin engines in the first stage 85 seconds after liftoff. However, because of the altitude of the rocket, there was no oxygen to ignite the fuel, allowing the first stage to completed its ascent without issue. However, 45 seconds after the booster landed, enough oxygen had entered the engine compartment where the leak occurred, creating a large fire. The fire resulted in the structural failure of one of the landing legs, leading to the booster tipping over and being destroyed. SpaceX voluntarily paused launches for more than a week as it investigated the issue.
444
444
Flight No.
444
Date andtime (UTC)
March 12, 202503:10
Version,booster
F9 B5B1088‑3
Launchsite
Vandenberg, SLC‑4E
Payload
SPHERExPUNCH
Payload mass
758 kg (1,671 lb)
Orbit
SSO
Customer
NASA
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
SPHEREx is a NASA space observatory that will measure the near-infrared spectra of galaxies. PUNCH is a constellation of four microsatellites to study the Sun's corona and heliosphere, launched as a rideshare.
SPHEREx is a NASA space observatory that will measure the near-infrared spectra of galaxies. PUNCH is a constellation of four microsatellites to study the Sun's corona and heliosphere, launched as a rideshare.
Flight No.
SPHEREx is a NASA space observatory that will measure the near-infrared spectra of galaxies. PUNCH is a constellation of four microsatellites to study the Sun's corona and heliosphere, launched as a rideshare.
445
445
Flight No.
445
Date andtime (UTC)
March 13, 202502:35
Version,booster
F9 B5B1069‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-21
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
446
446
Flight No.
446
Date andtime (UTC)
March 14, 202523:03
Version,booster
F9 B5B1090‑2
Launchsite
Kennedy, LC‑39A
Payload
Crew-10 (Crew Dragon C210-4 Endurance)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO (ISS)
Customer
NASA (CCP)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Ferried four Expedition 72 / 73 crew members to the ISS for a long-duration mission.
Ferried four Expedition 72 / 73 crew members to the ISS for a long-duration mission.
Flight No.
Ferried four Expedition 72 / 73 crew members to the ISS for a long-duration mission.
447
447
Flight No.
447
Date andtime (UTC)
March 15, 202506:43
Version,booster
F9 B5B1081‑13
Launchsite
Vandenberg, SLC‑4E
Payload
Transporter-13 (74 payload smallsat rideshare)
Payload mass
Unknown
Orbit
SSO
Customer
Various
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Flight No.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
448
448
Flight No.
448
Date andtime (UTC)
March 15, 202511:35
Version,booster
F9 B5B1078‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-16
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
449
449
Flight No.
449
Date andtime (UTC)
March 18, 202519:57
Version,booster
F9 B5B1077‑19
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-25
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 28th time.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 28th time.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 28th time.
450
450
Flight No.
450
Date andtime (UTC)
March 21, 202506:49
Version,booster
F9 B5B1088‑4
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-57 (~11 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Eighth launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office. Based on the number of gaps in the catalog it appears that this launch only deployed 11 payloads, likely indicating a larger Starshield version. This mission marks the shortest turnaround time for any Falcon booster at 9 days, 3 hours, 39 minutes and 28 seconds.
Eighth launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office. Based on the number of gaps in the catalog it appears that this launch only deployed 11 payloads, likely indicating a larger Starshield version. This mission marks the shortest turnaround time for any Falcon booster at 9 days, 3 hours, 39 minutes and 28 seconds.
Flight No.
Eighth launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office. Based on the number of gaps in the catalog it appears that this launch only deployed 11 payloads, likely indicating a larger Starshield version. This mission marks the shortest turnaround time for any Falcon booster at 9 days, 3 hours, 39 minutes and 28 seconds.
451
451
Flight No.
451
Date andtime (UTC)
March 24, 202517:48
Version,booster
F9 B5B1092‑2
Launchsite
Cape Canaveral, SLC‑40
Payload
NROL-69
Payload mass
Unknown
Orbit
LEO
Customer
USSF
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Presumed to be an Intruder-class signals intelligence satellite.
Presumed to be an Intruder-class signals intelligence satellite.
Flight No.
Presumed to be an Intruder-class signals intelligence satellite.
452
452
Flight No.
452
Date andtime (UTC)
March 26, 202522:11
Version,booster
F9 B5B1063‑24
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-7
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
453
453
Flight No.
453
Date andtime (UTC)
March 31, 202519:52
Version,booster
F9 B5B1080‑17
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-80
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
454
454
Flight No.
454
Date andtime (UTC)
April 1, 202501:46
Version,booster
F9 B5B1085‑6
Launchsite
Kennedy, LC‑39A
Payload
Fram2 (Crew Dragon C207-4 Resilience)
Payload mass
~13,000 kg (29,000 lb)
Orbit
Polar (Retrograde)
Customer
Chun Wang
Launchoutcome
Success
Boosterlanding
Success (ASOG)
First ever crewed mission launched into polar orbit.
First ever crewed mission launched into polar orbit.
Flight No.
First ever crewed mission launched into polar orbit.
455
455
Flight No.
455
Date andtime (UTC)
April 4, 202501:02
Version,booster
F9 B5B1088‑5
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-13
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
456
456
Flight No.
456
Date andtime (UTC)
April 6, 202503:07
Version,booster
F9 B5B1078‑19
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-72
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
457
457
Flight No.
457
Date andtime (UTC)
April 7, 202523:06
Version,booster
F9 B5B1093‑1
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-11
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini satellites, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 27 Starlink v2 mini satellites, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 27 Starlink v2 mini satellites, to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
458
458
Flight No.
458
Date andtime (UTC)
April 12, 202512:25
Version,booster
F9 B5B1071‑24
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-192 (22 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Ninth launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
Ninth launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
Flight No.
Ninth launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
459
459
Flight No.
459
Date andtime (UTC)
April 13, 202500:53
Version,booster
F9 B5B1083‑10
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 12-17
Payload mass
~16,500 kg (36,400 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
460
460
Flight No.
460
Date andtime (UTC)
April 14, 202504:00
Version,booster
F9 B5B1067‑27
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-73
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 27 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 27th time, new record.
Launch of 27 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 27th time, new record.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 27th time, new record.
461
461
Flight No.
461
Date andtime (UTC)
April 20, 202512:29
Version,booster
F9 B5B1082‑12
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-145 (22 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Tenth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. First NRO Proliferated Architecture Mission launch in partnership with USSF under the NSSL Phase 3 Lane 1 contract.
Tenth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. First NRO Proliferated Architecture Mission launch in partnership with USSF under the NSSL Phase 3 Lane 1 contract.
Flight No.
Tenth launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office. First NRO Proliferated Architecture Mission launch in partnership with USSF under the NSSL Phase 3 Lane 1 contract.
462
462
Flight No.
462
Date andtime (UTC)
April 21, 202508:15
Version,booster
F9 B5 B1092‑3
Launchsite
Kennedy, LC‑39A
Payload
SpaceX CRS-32 (Cargo Dragon C209-5)
Payload mass
3,021 kg (6,660 lb)
Orbit
LEO (ISS)
Customer
NASA (CRS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Carried cargo and supplies to the International Space Station (ISS).
Carried cargo and supplies to the International Space Station (ISS).
Flight No.
Carried cargo and supplies to the International Space Station (ISS).
463
463
Flight No.
463
Date andtime (UTC)
April 22, 202500:48
Version,booster
F9 B5B1090‑3
Launchsite
Cape Canaveral, SLC‑40
Payload
Bandwagon-3 (425Sat-3, Tomorrow-S7, PHOENIX)
Payload mass
Unknown
Orbit
LEO
Customer
Republic of Korea Armed ForcesTomorrow.ioAtmos Space Cargo
Launchoutcome
Success
Boosterlanding
Success (LZ‑2)
SmallSat rideshare mission to a 550–600 km (340–370 mi) orbit at an inclination of 45°. Launch featured a rare Falcon 9 landing at LZ-2, as the booster from the CRS-32 launch just hours before was still on LZ-1. 425Sat-3 is the third synthetic-aperture radar satellite for the constellation and the fourth flight of Korea 425 Project for the South Korean military. Also on the flight are Tomorrow.io's Tomorrow-S7 satellite and Atmos Space Cargo's PHOENIX re-entry capsule. This mission marks the 300th launch from SLC-40.
SmallSat rideshare mission to a 550–600 km (340–370 mi) orbit at an inclination of 45°. Launch featured a rare Falcon 9 landing at LZ-2, as the booster from the CRS-32 launch just hours before was still on LZ-1. 425Sat-3 is the third synthetic-aperture radar satellite for the constellation and the fourth flight of Korea 425 Project for the South Korean military. Also on the flight are Tomorrow.io's Tomorrow-S7 satellite and Atmos Space Cargo's PHOENIX re-entry capsule. This mission marks the 300th launch from SLC-40.
Flight No.
SmallSat rideshare mission to a 550–600 km (340–370 mi) orbit at an inclination of 45°. Launch featured a rare Falcon 9 landing at LZ-2, as the booster from the CRS-32 launch just hours before was still on LZ-1. 425Sat-3 is the third synthetic-aperture radar satellite for the constellation and the fourth flight of Korea 425 Project for the South Korean military. Also on the flight are Tomorrow.io's Tomorrow-S7 satellite and Atmos Space Cargo's PHOENIX re-entry capsule. This mission marks the 300th launch from SLC-40.
464
464
Flight No.
464
Date andtime (UTC)
April 25, 202501:52
Version,booster
F9 B5B1069‑23
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-74
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 29th time.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 29th time.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 29th time.
465
465
Flight No.
465
Date andtime (UTC)
April 28, 202502:09
Version,booster
F9 B5B1077‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-23
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 250th dedicated Starlink constellation launch.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 250th dedicated Starlink constellation launch.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 250th dedicated Starlink constellation launch.
466
466
Flight No.
466
Date andtime (UTC)
April 28, 202520:42
Version,booster
F9 B5B1063‑25
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-9
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
467
467
Flight No.
467
Date andtime (UTC)
April 29, 202502:34
Version,booster
F9 B5B1094‑1
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 12-10
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
468
468
Flight No.
468
Date andtime (UTC)
May 2, 202501:51
Version,booster
F9 B5B1080‑18
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-75
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
469
469
Flight No.
469
Date andtime (UTC)
May 4, 202508:54
Version,booster
F9 B5B1078‑20
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-84
Payload mass
~16,675 kg (36,762 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Fastest launch turnaround at Pad 39A.
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Fastest launch turnaround at Pad 39A.
Flight No.
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. Fastest launch turnaround at Pad 39A.
470
470
Flight No.
470
Date andtime (UTC)
May 7, 202501:17
Version,booster
F9 B5B1085‑7
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-93
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 470th Falcon 9 rocket launch.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 470th Falcon 9 rocket launch.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 470th Falcon 9 rocket launch.
471
471
Flight No.
471
Date andtime (UTC)
May 10, 202500:19
Version,booster
F9 B5B1081‑14
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-3
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
472
472
Flight No.
472
Date andtime (UTC)
May 10, 202506:28
Version,booster
F9 B5B1083‑11
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-91
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. The active fairing half flew for record 30th time as per launch webcasts.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. The active fairing half flew for record 30th time as per launch webcasts.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. The active fairing half flew for record 30th time as per launch webcasts.
473
473
Flight No.
473
Date andtime (UTC)
May 13, 202501:15
Version,booster
F9 B5B1088‑6
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-4
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
474
474
Flight No.
474
Date andtime (UTC)
May 13, 202505:02
Version,booster
F9 B5B1067‑28
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 6-83
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to launch and land for the 28th time. 100th single-stick Falcon 9 to launch from LC-39A.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to launch and land for the 28th time. 100th single-stick Falcon 9 to launch from LC-39A.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to launch and land for the 28th time. 100th single-stick Falcon 9 to launch from LC-39A.
475
475
Flight No.
475
Date andtime (UTC)
May 14, 202516:38
Version,booster
F9 B5B1090‑4
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-67
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
476
476
Flight No.
476
Date andtime (UTC)
May 16, 202513:43
Version,booster
F9 B5B1093‑2
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-5
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
477
477
Flight No.
477
Date andtime (UTC)
May 21, 202503:19
Version,booster
F9 B5B1095‑1
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-15
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
478
478
Flight No.
478
Date andtime (UTC)
May 23, 202522:32
Version,booster
F9 B5B1075‑18
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-16
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 450th Falcon booster landing.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 450th Falcon booster landing.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 450th Falcon booster landing.
479
479
Flight No.
479
Date andtime (UTC)
May 24, 202517:19
Version,booster
F9 B5B1069‑24
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-22
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
480
480
Flight No.
480
Date andtime (UTC)
May 27, 202516:57
Version,booster
F9 B5B1082‑13
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-1
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation. First Starlink launch with SSO inclination in over 2 years.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation. First Starlink launch with SSO inclination in over 2 years.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation. First Starlink launch with SSO inclination in over 2 years.
481
481
Flight No.
481
Date andtime (UTC)
May 28, 202513:30
Version,booster
F9 B5B1080‑19
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 10-32
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. The active fairing half flew for record 31st time as per launch webcasts.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. The active fairing half flew for record 31st time as per launch webcasts.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. The active fairing half flew for record 31st time as per launch webcasts.
482
482
Flight No.
482
Date andtime (UTC)
May 30, 202517:37
Version,booster
F9 B5B1092‑4
Launchsite
Cape Canaveral, SLC‑40
Payload
GPS III-8
Payload mass
4,350 kg (9,590 lb)
Orbit
MEO
Customer
USSF
Launchoutcome
Success
Boosterlanding
Success (ASOG)
GPS III-8, originally scheduled to launch on a ULA Vulcan rocket, was reassigned to the Falcon 9. As a result, GPS IIIF-1, originally planned to launch on the Falcon Heavy, will now launch on Vulcan.
GPS III-8, originally scheduled to launch on a ULA Vulcan rocket, was reassigned to the Falcon 9. As a result, GPS IIIF-1, originally planned to launch on the Falcon Heavy, will now launch on Vulcan.
Flight No.
GPS III-8, originally scheduled to launch on a ULA Vulcan rocket, was reassigned to the Falcon 9. As a result, GPS IIIF-1, originally planned to launch on the Falcon Heavy, will now launch on Vulcan.
483
483
Flight No.
483
Date andtime (UTC)
May 31, 202520:10
Version,booster
F9 B5B1071‑25
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-18
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
484
484
Flight No.
484
Date andtime (UTC)
June 3, 202504:43
Version,booster
F9 B5B1077‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-19
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 500th launch of SpaceX's Falcon launch vehicles.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 500th launch of SpaceX's Falcon launch vehicles.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 500th launch of SpaceX's Falcon launch vehicles.
485
485
Flight No.
485
Date andtime (UTC)
June 4, 202523:40
Version,booster
F9 B5B1063‑26
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-22
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 500th Falcon Family Orbital Launch.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 500th Falcon Family Orbital Launch.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. 500th Falcon Family Orbital Launch.
486
486
Flight No.
486
Date andtime (UTC)
June 7, 202504:54
Version,booster
F9 B5B1085‑8
Launchsite
Cape Canaveral, SLC‑40
Payload
SXM-10
Payload mass
6,400 kg (14,100 lb)
Orbit
GTO
Customer
Sirius XM
Launchoutcome
Success
Boosterlanding
Success (ASOG)
SXM-10 is a high-powered, digital, audio radio satellite built by Maxar (SSL) for SiriusXM. SpaceX successfully completed a controlled deorbit of the SiriusXM-10 upper stage after GTO payload deployment, a first of its kind.
SXM-10 is a high-powered, digital, audio radio satellite built by Maxar (SSL) for SiriusXM. SpaceX successfully completed a controlled deorbit of the SiriusXM-10 upper stage after GTO payload deployment, a first of its kind.
Flight No.
SXM-10 is a high-powered, digital, audio radio satellite built by Maxar (SSL) for SiriusXM. SpaceX successfully completed a controlled deorbit of the SiriusXM-10 upper stage after GTO payload deployment, a first of its kind.
487
487
Flight No.
487
Date andtime (UTC)
June 8, 202514:20
Version,booster
F9 B5B1088‑7
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-8
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
488
488
Flight No.
488
Date andtime (UTC)
June 10, 202513:05
Version,booster
F9 B5B1083‑12
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-24
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
489
489
Flight No.
489
Date andtime (UTC)
June 13, 202501:54
Version,booster
F9 B5B1081‑15
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-6
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation. 500th Falcon 9 mission.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation. 500th Falcon 9 mission.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation. 500th Falcon 9 mission.
490
490
Flight No.
490
Date andtime (UTC)
June 13, 202515:29
Version,booster
F9 B5B1078‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 12-26
Payload mass
~17,100 kg (37,700 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Flight No.
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
491
491
Flight No.
491
Date andtime (UTC)
June 17, 202503:36
Version,booster
F9 B5B1093‑3
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-9
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation.
492
492
Flight No.
492
Date andtime (UTC)
June 18, 202505:55
Version,booster
F9 B5B1090‑5
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-18
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
493
493
Flight No.
493
Date andtime (UTC)
June 23, 202505:58
Version,booster
F9 B5B1069‑25
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-23
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
494
494
Flight No.
494
Date andtime (UTC)
June 23, 202521:25
Version,booster
F9 B5B1071‑26
Launchsite
Vandenberg, SLC‑4E
Payload
Transporter-14 (70 payloads smallsat rideshare)
Payload mass
Unknown
Orbit
SSO
Customer
Various
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Flight No.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
495
495
Flight No.
495
Date andtime (UTC)
June 25, 202506:31
Version,booster
F9 B5B1094‑2
Launchsite
Kennedy, LC‑39A
Payload
Axiom Mission 4 (Crew Dragon C213-1 Grace)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO (ISS)
Customer
Axiom Space
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Fully private flight to the ISS. The crew consisted of Axiom Commander Peggy Whitson, Pilot Shubhanshu Shukla of the ISRO and mission specialists Sławosz Uznański-Wiśniewski of ESA/POLSA and Tibor Kapu of Hungary.
Fully private flight to the ISS. The crew consisted of Axiom Commander Peggy Whitson, Pilot Shubhanshu Shukla of the ISRO and mission specialists Sławosz Uznański-Wiśniewski of ESA/POLSA and Tibor Kapu of Hungary.
Flight No.
Fully private flight to the ISS. The crew consisted of Axiom Commander Peggy Whitson, Pilot Shubhanshu Shukla of the ISRO and mission specialists Sławosz Uznański-Wiśniewski of ESA/POLSA and Tibor Kapu of Hungary.
496
496
Flight No.
496
Date andtime (UTC)
June 25, 202519:54
Version,booster
F9 B5B1080‑20
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-16
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. The active fairing half flew for record 32th time as per launch webcasts.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. The active fairing half flew for record 32th time as per launch webcasts.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. The active fairing half flew for record 32th time as per launch webcasts.
497
497
Flight No.
497
Date andtime (UTC)
June 28, 202504:26
Version,booster
F9 B5B1092‑5
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-34
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 1st time flying a fairing half for the 32nd time.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 1st time flying a fairing half for the 32nd time.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 1st time flying a fairing half for the 32nd time.
498
498
Flight No.
498
Date andtime (UTC)
June 28, 202517:13
Version,booster
F9 B5B1088‑8
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-7
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation. Fastest turnaround between two launches from a single pad (56 hours, 31 minutes and 10sec apart), three launches from a single pad (118 hours 27 minutes 30 seconds) and for barge from preceding landed booster arrival onshore to next launch (5 days).
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation. Fastest turnaround between two launches from a single pad (56 hours, 31 minutes and 10sec apart), three launches from a single pad (118 hours 27 minutes 30 seconds) and for barge from preceding landed booster arrival onshore to next launch (5 days).
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 70° to expand internet constellation. Fastest turnaround between two launches from a single pad (56 hours, 31 minutes and 10sec apart), three launches from a single pad (118 hours 27 minutes 30 seconds) and for barge from preceding landed booster arrival onshore to next launch (5 days).
499
499
Flight No.
499
Date andtime (UTC)
July 1, 202521:04
Version,booster
F9 B5B1085‑9
Launchsite
Kennedy, LC‑39A
Payload
MTG-S1 / Sentinel-4A
Payload mass
3,800 kg (8,400 lb)
Orbit
GTO
Customer
EUMETSAT
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Geostationary weather satellite. Launch vehicle changed from Ariane 6 to Falcon 9.
Geostationary weather satellite. Launch vehicle changed from Ariane 6 to Falcon 9.
Flight No.
Geostationary weather satellite. Launch vehicle changed from Ariane 6 to Falcon 9.
500
500
Flight No.
500
Date andtime (UTC)
July 2, 202506:28
Version,booster
F9 B5B1067‑29
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-25
Payload mass
~15,500 kg (34,200 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th launch of Falcon 9. First booster to fly 29th time, new record.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th launch of Falcon 9. First booster to fly 29th time, new record.
Flight No.
Launch of 27 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th launch of Falcon 9. First booster to fly 29th time, new record.
501
501
Flight No.
501
Date andtime (UTC)
July 8, 202508:21
Version,booster
F9 B5B1077‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-28
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th orbital launch of Falcon 9.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th orbital launch of Falcon 9.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th orbital launch of Falcon 9.
502
502
Flight No.
502
Date andtime (UTC)
July 13, 202505:04
Version,booster
F9 B5B1083‑13
Launchsite
Cape Canaveral, SLC‑40
Payload
Dror-1 [he]
Payload mass
4,000 kg (8,800 lb)
Orbit
GTO
Customer
IAI
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of the Dror 1 geostationary communication satellite built and developed by Israel Aerospace Industries (IAI). 500th successful launch of Falcon 9.
Launch of the Dror 1 geostationary communication satellite built and developed by Israel Aerospace Industries (IAI). 500th successful launch of Falcon 9.
Flight No.
Launch of the Dror 1 geostationary communication satellite built and developed by Israel Aerospace Industries (IAI). 500th successful launch of Falcon 9.
503
503
Flight No.
503
Date andtime (UTC)
July 16, 202502:05
Version,booster
F9 B5B1093‑4
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 15-2
Payload mass
~14,950 kg (32,960 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 26 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 26 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 26 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
504
504
Flight No.
504
Date andtime (UTC)
July 16, 202506:30
Version,booster
F9 B5B1096‑1
Launchsite
Cape Canaveral, SLC‑40
Payload
KuiperSat × 24 (KF-01)
Payload mass
~14,784 kg (32,593 lb)
Orbit
LEO
Customer
Amazon (Kuiper Systems)
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 24 satellites to expand internet constellation. First of three Falcon 9 launches contracted.
Launch of 24 satellites to expand internet constellation. First of three Falcon 9 launches contracted.
Flight No.
Launch of 24 satellites to expand internet constellation. First of three Falcon 9 launches contracted.
505
505
Flight No.
505
Date andtime (UTC)
July 19, 202503:52
Version,booster
F9 B5B1082‑14
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-3
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 97° to expand internet constellation.
506
506
Flight No.
506
Date andtime (UTC)
July 22, 202521:12
Version,booster
F9 B5B1090‑6
Launchsite
Cape Canaveral, SLC‑40
Payload
O3b mPOWER 9 & 10
Payload mass
3,400 kg (7,500 lb)
Orbit
MEO
Customer
SES
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of two O3b mPOWER satellites, a system operated by SES that delivers high-throughput, low-latency global broadband from medium Earth orbit using dynamic beam shaping.
Launch of two O3b mPOWER satellites, a system operated by SES that delivers high-throughput, low-latency global broadband from medium Earth orbit using dynamic beam shaping.
Flight No.
Launch of two O3b mPOWER satellites, a system operated by SES that delivers high-throughput, low-latency global broadband from medium Earth orbit using dynamic beam shaping.
507
507
Flight No.
507
Date andtime (UTC)
July 23, 202518:13
Version,booster
F9 B5B1081‑16
Launchsite
Vandenberg, SLC‑4E
Payload
TRACERS (2 satellites)+ 5 rideshares
Payload mass
~920 kg (2,030 lb)
Orbit
SSO
Customer
NASA
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites (TRACERS) is a Small Explorers program mission. Additional scientific SmallSat missions will rideshare: PExT Demo (Polylingual Experimental Terminal), Athena EPIC (Economical Payload Integration Cost), REAL (Realistic Electron Atmospheric Loss), 5 × Skykraft 4 space-based air traffic management satellites and LIDE (Direct Access Live Demonstration).
Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites (TRACERS) is a Small Explorers program mission. Additional scientific SmallSat missions will rideshare: PExT Demo (Polylingual Experimental Terminal), Athena EPIC (Economical Payload Integration Cost), REAL (Realistic Electron Atmospheric Loss), 5 × Skykraft 4 space-based air traffic management satellites and LIDE (Direct Access Live Demonstration).
Flight No.
Tandem Reconnection and Cusp Electrodynamics Reconnaissance Satellites (TRACERS) is a Small Explorers program mission. Additional scientific SmallSat missions will rideshare: PExT Demo (Polylingual Experimental Terminal), Athena EPIC (Economical Payload Integration Cost), REAL (Realistic Electron Atmospheric Loss), 5 × Skykraft 4 space-based air traffic management satellites and LIDE (Direct Access Live Demonstration).
508
508
Flight No.
508
Date andtime (UTC)
July 26, 202509:01
Version,booster
F9 B5B1078‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-26
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
509
509
Flight No.
509
Date andtime (UTC)
July 27, 202504:31
Version,booster
F9 B5B1075‑19
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-2
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 97° to expand internet constellation.
510
510
Flight No.
510
Date andtime (UTC)
July 30, 202503:37
Version,booster
F9 B5B1069‑26
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-29
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
511
511
Flight No.
511
Date andtime (UTC)
July 31, 202518:35
Version,booster
F9 B5B1071‑27
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 13-4 + 2 Starshield satellites)
Payload mass
~14,060 kg (31,000 lb)(Starlink)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 19 Starlink v2 mini satellites to a 325 km (202 mi) orbit at an inclination of 97° to expand internet constellation. Two Starshield onboard this starlink group, and there were no views of second stage during launch.
Launch of 19 Starlink v2 mini satellites to a 325 km (202 mi) orbit at an inclination of 97° to expand internet constellation. Two Starshield onboard this starlink group, and there were no views of second stage during launch.
Flight No.
Launch of 19 Starlink v2 mini satellites to a 325 km (202 mi) orbit at an inclination of 97° to expand internet constellation. Two Starshield onboard this starlink group, and there were no views of second stage during launch.
512
512
Flight No.
512
Date andtime (UTC)
August 1, 202515:43
Version,booster
F9 B5B1094‑3
Launchsite
Kennedy, LC‑39A
Payload
Crew-11 (Crew Dragon C206-6 Endeavour)
Payload mass
~13,000 kg (29,000 lb)
Orbit
LEO (ISS)
Customer
NASA (CCP)
Launchoutcome
Success
Boosterlanding
Success (LZ‑1)
Long-duration mission. Will ferry four Expedition 73 / 74 crew members to the ISS. Endeavour is the first Dragon to fly beyond the initial certification of 5 flights per Dragon. During a press conference before Crew-11, Gerstenmaier said the landing of B1094 will be the final use of Landing Zone 1, but they will continue to use Landing Zone 2. That site, Launch Complex 13, is being transitioned back to a launch pad to be jointly used by Phantom Space Corporation and Vaya Space, while SpaceX will make new landing pads within the vicinity of LC‑39A and SLC‑40. Fastest Crew Dragon rendezvous to date.
Long-duration mission. Will ferry four Expedition 73 / 74 crew members to the ISS. Endeavour is the first Dragon to fly beyond the initial certification of 5 flights per Dragon. During a press conference before Crew-11, Gerstenmaier said the landing of B1094 will be the final use of Landing Zone 1, but they will continue to use Landing Zone 2. That site, Launch Complex 13, is being transitioned back to a launch pad to be jointly used by Phantom Space Corporation and Vaya Space, while SpaceX will make new landing pads within the vicinity of LC‑39A and SLC‑40. Fastest Crew Dragon rendezvous to date.
Flight No.
Long-duration mission. Will ferry four Expedition 73 / 74 crew members to the ISS. Endeavour is the first Dragon to fly beyond the initial certification of 5 flights per Dragon. During a press conference before Crew-11, Gerstenmaier said the landing of B1094 will be the final use of Landing Zone 1, but they will continue to use Landing Zone 2. That site, Launch Complex 13, is being transitioned back to a launch pad to be jointly used by Phantom Space Corporation and Vaya Space, while SpaceX will make new landing pads within the vicinity of LC‑39A and SLC‑40. Fastest Crew Dragon rendezvous to date.
513
513
Flight No.
513
Date andtime (UTC)
August 4, 202507:57
Version,booster
F9 B5B1080‑21
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-30
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
514
514
Flight No.
514
Date andtime (UTC)
August 11, 202512:35
Version,booster
F9 B5B1091‑1
Launchsite
Cape Canaveral, SLC‑40
Payload
KuiperSat × 24 (KF-02)
Payload mass
~14,784 kg (32,593 lb)
Orbit
LEO
Customer
Amazon (Kuiper Systems)
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Second of three Falcon 9 launches in support of Amazon's Project Kuiper internet constellation. First Falcon Heavy core type booster to fly a Falcon 9 mission.
Second of three Falcon 9 launches in support of Amazon's Project Kuiper internet constellation. First Falcon Heavy core type booster to fly a Falcon 9 mission.
Flight No.
Second of three Falcon 9 launches in support of Amazon's Project Kuiper internet constellation. First Falcon Heavy core type booster to fly a Falcon 9 mission.
515
515
Flight No.
515
Date andtime (UTC)
August 14, 202505:05
Version,booster
F9 B5B1093‑5
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-4
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation.
516
516
Flight No.
516
Date andtime (UTC)
August 14, 202512:29
Version,booster
F9 B5B1085‑10
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-20
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. Starlink tested a “mini laser” to allow connectivity for third party satellites and space stations with the Starlink constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. Starlink tested a “mini laser” to allow connectivity for third party satellites and space stations with the Starlink constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. Starlink tested a “mini laser” to allow connectivity for third party satellites and space stations with the Starlink constellation.
517
517
Flight No.
517
Date andtime (UTC)
August 18, 202516:26
Version,booster
F9 B5B1088‑9
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-5
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation. 100th Falcon 9 launch this year.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation. 100th Falcon 9 launch this year.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 560 km (350 mi) orbit at an inclination of 98° to expand internet constellation. 100th Falcon 9 launch this year.
518
518
Flight No.
518
Date andtime (UTC)
August 22, 202503:50
Version,booster
F9 B5B1092‑6
Launchsite
Kennedy, LC‑39A
Payload
USSF-36 (Boeing X-37B OTV-8)
Payload mass
~4,990 kg (11,000 lb)
Orbit
LEO
Customer
USSF
Launchoutcome
Success
Boosterlanding
Success (LZ‑2)
Launch part of Phase 2 US Space Force contract awarded in 2021.
Launch part of Phase 2 US Space Force contract awarded in 2021.
Flight No.
Launch part of Phase 2 US Space Force contract awarded in 2021.
519
519
Flight No.
519
Date andtime (UTC)
August 22, 202517:04
Version,booster
F9 B5B1081‑17
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-6
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
520
520
Flight No.
520
Date andtime (UTC)
August 24, 202506:45
Version,booster
F9 B5B1090‑7
Launchsite
Cape Canaveral, SLC‑40
Payload
SpaceX CRS-33 (Dragon C211-3)
Payload mass
2,300 kg (5,100 lb)
Orbit
LEO (ISS)
Customer
NASA (CRS)
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Commercial Resupply Services mission to the ISS. For the first time, this mission flew with a "boost trunk" with extra propellant and engines to perform re-boosts of the ISS over a period of several months.
Commercial Resupply Services mission to the ISS. For the first time, this mission flew with a "boost trunk" with extra propellant and engines to perform re-boosts of the ISS over a period of several months.
Flight No.
Commercial Resupply Services mission to the ISS. For the first time, this mission flew with a "boost trunk" with extra propellant and engines to perform re-boosts of the ISS over a period of several months.
521
521
Flight No.
521
Date andtime (UTC)
August 26, 202518:53
Version,booster
F9 B5B1063‑27
Launchsite
Vandenberg, SLC‑4E
Payload
NAOS + 7 rideshares
Payload mass
~1,370 kg (3,020 lb)
Orbit
SSO
Customer
Luxembourg Armed Forces & others
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
National Advanced Optical System (NAOS) is a military reconnaissance satellite for the Luxembourg Armed Forces. Additional rideshare payloads on this mission: LEAP-1, Pelican-3 & 4, Acadia-6 and FFLY-1, 2 & 3.
National Advanced Optical System (NAOS) is a military reconnaissance satellite for the Luxembourg Armed Forces. Additional rideshare payloads on this mission: LEAP-1, Pelican-3 & 4, Acadia-6 and FFLY-1, 2 & 3.
Flight No.
National Advanced Optical System (NAOS) is a military reconnaissance satellite for the Luxembourg Armed Forces. Additional rideshare payloads on this mission: LEAP-1, Pelican-3 & 4, Acadia-6 and FFLY-1, 2 & 3.
522
522
Flight No.
522
Date andtime (UTC)
August 27, 202511:10
Version,booster
F9 B5B1095‑2
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-56
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 400th droneship landing.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 400th droneship landing.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 400th droneship landing.
523
523
Flight No.
523
Date andtime (UTC)
August 28, 202508:12
Version,booster
F9 B5B1067‑30
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 10-11
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly 30 missions.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly 30 missions.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly 30 missions.
524
524
Flight No.
524
Date andtime (UTC)
August 30, 202504:59
Version,booster
F9 B5B1082‑15
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-7
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
525
525
Flight No.
525
Date andtime (UTC)
August 31, 202511:49
Version,booster
F9 B5B1077‑23
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-14
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
526
526
Flight No.
526
Date andtime (UTC)
September 3, 202503:51
Version,booster
F9 B5B1097‑1
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-8
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
527
527
Flight No.
527
Date andtime (UTC)
September 3, 202511:56
Version,booster
F9 B5B1083‑14
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-22
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 1st time flying a fairing half for the 33rd time.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 1st time flying a fairing half for the 33rd time.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 1st time flying a fairing half for the 33rd time.
528
528
Flight No.
528
Date andtime (UTC)
September 5, 202512:32
Version,booster
F9 B5B1069‑27
Launchsite
Kennedy, LC‑39A
Payload
Starlink: Group 10-57
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th landing of a Falcon booster.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th landing of a Falcon booster.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th landing of a Falcon booster.
529
529
Flight No.
529
Date andtime (UTC)
September 6, 202518:06
Version,booster
F9 B5B1075‑20
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-9
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation. 2000th Starlink satellite launched this year. 300th dedicated Starlink launch. 150th successful landing on SpaceX's droneship, Of Course I Still Love You.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation. 2000th Starlink satellite launched this year. 300th dedicated Starlink launch. 150th successful landing on SpaceX's droneship, Of Course I Still Love You.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation. 2000th Starlink satellite launched this year. 300th dedicated Starlink launch. 150th successful landing on SpaceX's droneship, Of Course I Still Love You.
530
530
Flight No.
530
Date andtime (UTC)
September 10, 202514:12
Version,booster
F9 B5B1093‑6
Launchsite
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Transport Layer B (21 satellites)
Payload mass
Unknown
Orbit
Polar LEO
Customer
SDA
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Flight No.
Launch part of Phase 2 US Space Force contract awarded in 2022.
531
531
Flight No.
531
Date andtime (UTC)
September 12, 202501:56
Version,booster
F9 B5B1078‑23
Launchsite
Cape Canaveral, SLC‑40
Payload
Nusantara Lima
Payload mass
~7,800 kg (17,200 lb)
Orbit
GTO
Customer
PT Pasifik Satelit Nusantara
Launchoutcome
Success
Boosterlanding
Success (ASOG)
A hot backup system for SATRIA-1.
A hot backup system for SATRIA-1.
Flight No.
A hot backup system for SATRIA-1.
532
532
Flight No.
532
Date andtime (UTC)
September 13, 202517:55
Version,booster
F9 B5B1071‑28
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-10
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
533
533
Flight No.
533
Date andtime (UTC)
September 14, 202522:11
Version,booster
F9 B5B1094‑4
Launchsite
Cape Canaveral, SLC‑40
Payload
CRS NG-23 (S.S. William "Willie" C. McCool)
Payload mass
5,000 kg (11,000 lb)
Orbit
LEO (ISS)
Customer
Northrop Grumman (CRS)
Launchoutcome
Success
Boosterlanding
Success (LZ‑2)
ISS cargo resupply mission for Northrop Grumman's Cygnus spacecraft. The originally planned Cygnus NG-22 spacecraft was damaged during shipment to Cape Canaveral, delaying the launch. First flight of extended Cygnus XL spacecraft. Third of four missions scheduled to fly on a Falcon 9 rocket.
ISS cargo resupply mission for Northrop Grumman's Cygnus spacecraft. The originally planned Cygnus NG-22 spacecraft was damaged during shipment to Cape Canaveral, delaying the launch. First flight of extended Cygnus XL spacecraft. Third of four missions scheduled to fly on a Falcon 9 rocket.
Flight No.
ISS cargo resupply mission for Northrop Grumman's Cygnus spacecraft. The originally planned Cygnus NG-22 spacecraft was damaged during shipment to Cape Canaveral, delaying the launch. First flight of extended Cygnus XL spacecraft. Third of four missions scheduled to fly on a Falcon 9 rocket.
534
534
Flight No.
534
Date andtime (UTC)
September 18, 202509:30
Version,booster
F9 B5B1092‑7
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-61
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
535
535
Flight No.
535
Date andtime (UTC)
September 19, 202516:31
Version,booster
F9 B5B1088‑10
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-12
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
536
536
Flight No.
536
Date andtime (UTC)
September 21, 202510:53
Version,booster
F9 B5B1085‑11
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-27
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
537
537
Flight No.
537
Date andtime (UTC)
September 22, 202517:38
Version,booster
F9 B5B1081‑18
Launchsite
Vandenberg, SLC‑4E
Payload
NROL-48 (~11 Starshield satellites)
Payload mass
Unknown
Orbit
LEO
Customer
NRO
Launchoutcome
Success
Boosterlanding
Success (LZ‑4)
Eleventh launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office.
Eleventh launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office.
Flight No.
Eleventh launch of SpaceX/Northrop Grumman-built Starshield satellites for the National Reconnaissance Office.
538
538
Flight No.
538
Date andtime (UTC)
September 24, 202511:30
Version,booster
F9 B5B1096‑2
Launchsite
Kennedy, LC‑39A
Payload
Interstellar Mapping and Acceleration Probe (IMAP)
Payload mass
1,477 kg (3,256 lb)
Orbit
Sun–Earth L1
Customer
NASA
Launchoutcome
Success
Boosterlanding
Success (JRTI)
In September 2020, NASA selected SpaceX to launch the IMAP mission, which will help researchers better understand the boundary of the heliosphere, a magnetic barrier surrounding our solar system. The total launch cost is approximately US$109.4 million. The secondary payloads include the Carruthers Geocorona Observatory and the National Oceanic and Atmospheric Administration's Space Weather Follow On-Lagrange 1 (SWFO-L1) mission.
In September 2020, NASA selected SpaceX to launch the IMAP mission, which will help researchers better understand the boundary of the heliosphere, a magnetic barrier surrounding our solar system. The total launch cost is approximately US$109.4 million. The secondary payloads include the Carruthers Geocorona Observatory and the National Oceanic and Atmospheric Administration's Space Weather Follow On-Lagrange 1 (SWFO-L1) mission.
Flight No.
In September 2020, NASA selected SpaceX to launch the IMAP mission, which will help researchers better understand the boundary of the heliosphere, a magnetic barrier surrounding our solar system. The total launch cost is approximately US$109.4 million. The secondary payloads include the Carruthers Geocorona Observatory and the National Oceanic and Atmospheric Administration's Space Weather Follow On-Lagrange 1 (SWFO-L1) mission.
539
539
Flight No.
539
Date andtime (UTC)
September 25, 202508:39
Version,booster
F9 B5B1080‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-15
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
540
540
Flight No.
540
Date andtime (UTC)
September 26, 202504:26
Version,booster
F9 B5B1082‑16
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 17-11
Payload mass
~17,500 kg (38,600 lb)
Orbit
SSO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
Flight No.
Launch of 24 Starlink v2 mini satellites to a 281 km (175 mi) orbit at an inclination of 97° to expand internet constellation.
541
541
Flight No.
541
Date andtime (UTC)
September 29, 202502:04
Version,booster
F9 B5B1063‑28
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-20
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. First time SpaceX conducted 8 West Coast launches in a single calendar month.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. First time SpaceX conducted 8 West Coast launches in a single calendar month.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. First time SpaceX conducted 8 West Coast launches in a single calendar month.
542
542
Flight No.
542
Date andtime (UTC)
October 3, 202514:06
Version,booster
F9 B5B1097‑2
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-39
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. 47 launches were carried out in this complex this year, surpassing last year with 46 launches carried out.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. 47 launches were carried out in this complex this year, surpassing last year with 46 launches carried out.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. 47 launches were carried out in this complex this year, surpassing last year with 46 launches carried out.
543
543
Flight No.
543
Date andtime (UTC)
October 7, 202506:46
Version,booster
F9 B5B1090‑8
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-59
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 90th Starlink mission of 2025.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 90th Starlink mission of 2025.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 90th Starlink mission of 2025.
544
544
Flight No.
544
Date andtime (UTC)
October 8, 202503:54
Version,booster
F9 B5B1071‑29
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-17
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
545
545
Flight No.
545
Date andtime (UTC)
October 14, 202501:58
Version,booster
F9 B5B1091‑2
Launchsite
Cape Canaveral, SLC‑40
Payload
KuiperSat × 24 (KF-03)
Payload mass
~14,784 kg (32,593 lb)
Orbit
LEO
Customer
Amazon (Kuiper Systems)
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Third of three Falcon 9 launches in support of Amazon's Project Kuiper internet constellation.
Third of three Falcon 9 launches in support of Amazon's Project Kuiper internet constellation.
Flight No.
Third of three Falcon 9 launches in support of Amazon's Project Kuiper internet constellation.
546
546
Flight No.
546
Date andtime (UTC)
October 15, 202523:06
Version,booster
F9 B5B1093‑7
Launchsite
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Transport Layer C (21 satellites)
Payload mass
Unknown
Orbit
Polar LEO
Customer
SDA
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Flight No.
Launch part of Phase 2 US Space Force contract awarded in 2022.
547
547
Flight No.
547
Date andtime (UTC)
October 16, 202509:27
Version,booster
F9 B5B1095‑3
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-52
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th landing of a Falcon first stage booster. Fastest launch to launch from the same American Launch Pad at 55 hours, 29 minutes and 9 seconds. Fastest Transporter Erector roll-in to hangar for booster integration to launch at 12 hours, 5 minutes, 20 seconds. 1st time flying a fairing half for the 34th time.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th landing of a Falcon first stage booster. Fastest launch to launch from the same American Launch Pad at 55 hours, 29 minutes and 9 seconds. Fastest Transporter Erector roll-in to hangar for booster integration to launch at 12 hours, 5 minutes, 20 seconds. 1st time flying a fairing half for the 34th time.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. 500th landing of a Falcon first stage booster. Fastest launch to launch from the same American Launch Pad at 55 hours, 29 minutes and 9 seconds. Fastest Transporter Erector roll-in to hangar for booster integration to launch at 12 hours, 5 minutes, 20 seconds. 1st time flying a fairing half for the 34th time.
548
548
Flight No.
548
Date andtime (UTC)
October 19, 202517:39
Version,booster
F9 B5B1067‑31
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-17
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly 31 missions.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly 31 missions.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First booster to fly 31 missions.
549
549
Flight No.
549
Date andtime (UTC)
October 19, 202519:24
Version,booster
F9 B5B1088‑11
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-19
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. Launched 10,000th Starlink satellite.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. Launched 10,000th Starlink satellite.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. Launched 10,000th Starlink satellite.
550
550
Flight No.
550
Date andtime (UTC)
October 22, 202514:16
Version,booster
F9 B5B1075‑21
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-5
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
551
551
Flight No.
551
Date andtime (UTC)
October 24, 202501:30
Version,booster
F9 B5B1076‑22
Launchsite
Cape Canaveral, SLC‑40
Payload
Spainsat NG II
Payload mass
6,100 kg (13,400 lb)
Orbit
GTO
Customer
Hisdesat
Launchoutcome
Success
Boosterlanding
No attempt
Communications satellite built on the Eurostar-Neo platform, to be utilized by the Spanish government and its allies. Second of two launches for the Spainsat-NG program. First stage booster was expended due to the performance needed to lift the 6,100 kg (13,400 lb) satellite to GTO.
Communications satellite built on the Eurostar-Neo platform, to be utilized by the Spanish government and its allies. Second of two launches for the Spainsat-NG program. First stage booster was expended due to the performance needed to lift the 6,100 kg (13,400 lb) satellite to GTO.
Flight No.
Communications satellite built on the Eurostar-Neo platform, to be utilized by the Spanish government and its allies. Second of two launches for the Spainsat-NG program. First stage booster was expended due to the performance needed to lift the 6,100 kg (13,400 lb) satellite to GTO.
552
552
Flight No.
552
Date andtime (UTC)
October 25, 202514:20
Version,booster
F9 B5B1081‑19
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-12
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
553
553
Flight No.
553
Date andtime (UTC)
October 26, 202515:00
Version,booster
F9 B5B1077‑24
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-21
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (ASOG)
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
554
554
Flight No.
554
Date andtime (UTC)
October 28, 202500:43
Version,booster
F9 B5B1082‑17
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-21
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. Fastest turnaround between two consecutive launches for SLC-4E, with 2 days and 10 hours between launches. The droneship made it to the landing position roughly 15 seconds before the start of propellant loading.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. Fastest turnaround between two consecutive launches for SLC-4E, with 2 days and 10 hours between launches. The droneship made it to the landing position roughly 15 seconds before the start of propellant loading.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. Fastest turnaround between two consecutive launches for SLC-4E, with 2 days and 10 hours between launches. The droneship made it to the landing position roughly 15 seconds before the start of propellant loading.
555
555
Flight No.
555
Date andtime (UTC)
October 29, 202516:35
Version,booster
F9 B5B1083‑15
Launchsite
Cape Canaveral, SLC‑40
Payload
Starlink: Group 10-37
Payload mass
~16,675 kg (36,762 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (JRTI)
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First time launch of 29 optimized Starlink v2 mini.
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First time launch of 29 optimized Starlink v2 mini.
Flight No.
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation. First time launch of 29 optimized Starlink v2 mini.
556
556
Flight No.
556
Date andtime (UTC)
October 31, 202520:41
Version,booster
F9 B5B1063‑29
Launchsite
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-23
Payload mass
~16,100 kg (35,500 lb)
Orbit
LEO
Customer
SpaceX
Launchoutcome
Success
Boosterlanding
Success (OCISLY)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. 100th Starlink Mission in 2025. 500th Falcon 9 Block 5 launch.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. 100th Starlink Mission in 2025. 500th Falcon 9 Block 5 launch.
Flight No.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation. 100th Starlink Mission in 2025. 500th Falcon 9 Block 5 launch.
557
557
Flight No.
557
Date andtime (UTC)
November 2, 202505:09
Version,booster
F9 B5B1091‑3
Launchsite
Cape Canaveral, SLC‑40
Payload
Bandwagon-4 (18 payloads smallsat rideshare)
Payload mass
Unknown
Orbit
LEO
Customer
Various
Launchoutcome
Success
Boosterlanding
Success (LZ‑2)
Dedicated SmallSat Rideshare mission to 45 degree inclination 550–600 km altitude.
Dedicated SmallSat Rideshare mission to 45 degree inclination 550–600 km altitude.
Flight No.
Dedicated SmallSat Rideshare mission to 45 degree inclination 550–600 km altitude.
Flight No.
Date andtime (UTC)
Version,booster
Launchsite
Payload
Payload mass
Orbit
Customer
Launchoutcome
Boosterlanding
418
January 4, 202501:27
F9 B5B1073‑20
Cape Canaveral, SLC‑40
Thuraya 4-NGS
5,000 kg (11,000 lb)
GTO
Thuraya
Success
Success (ASOG)
Planned replacement for Thuraya 2 and 3.
419
January 6, 202520:43
F9 B5B1077‑17
Cape Canaveral, SLC‑40
Starlink: Group 6‑71
~17,500 kg (38,600 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 24 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 23rd time.
420
January 8, 202515:27
F9 B5B1086‑3
Kennedy, LC‑39A
Starlink: Group 12-11 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
421
January 10, 202503:53
F9 B5B1071‑22
Vandenberg, SLC‑4E
NROL-153 (22 Starshield satellites)
Unknown
LEO
NRO
Success
Success (OCISLY)
Seventh launch of SpaceX/Northrop Grumman-built satellites for the National Reconnaissance Office.
422
January 10, 202519:11
F9 B5B1067‑25
Cape Canaveral, SLC‑40
Starlink: Group 12-12 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly 25th time, new record.
423
January 13, 202516:47
F9 B5B1080‑15
Cape Canaveral, SLC‑40
Starlink: Group 12-4 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
424
January 14, 202519:09
F9 B5B1088‑2
Vandenberg, SLC‑4E
Transporter-12 (131 payload smallsat rideshare)
2,000 kg (4,400 lb)
SSO
Various
Success
Success (LZ‑4)
Dedicated SmallSat Rideshare mission to sun-synchronous orbit.
425
January 15, 202506:11
F9 B5B1085‑5
Kennedy, LC‑39A
Blue Ghost Mission 1
2,517 kg (5,549 lb)
TLI
Firefly Aerospace & NASA (CLPS)
Success
Success (JRTI)
Hakuto-R Mission 2
ispace
Both Blue Ghost Mission 1 and Hakuto-R Mission 2 (Resilience lander) launched together on a single rocket (first of its kind deep space lander launch). Blue Ghost will carry 10 payloads for NASA's Commercial Lunar Payload Services task order 19D mission and other separately contracted payloads. Resilience is the second lunar lander built by Japanese company ispace and will deliver TENACIOUS mini rover to the lunar surface. To house both landers in the payload fairing, SpaceX used a new dual-launch carrying structure.
426
January 21, 202505:24
F9 B5B1083‑8
Kennedy, LC‑39A
Starlink: Group 13-1 (21 satellites) + 2 Starshield satellites
~15,300 kg (33,700 lb)(Starlink)
LEO
SpaceX
Success
Success (ASOG)
Launch of 21 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation and two SpaceX Starshield satellites as rideshare. 1st time flying a fairing half for the 24th time.
427
January 21, 202515:45
F9 B5B1082‑10
Vandenberg, SLC‑4E
Starlink: Group 11-8 (27 satellites)
~15,500 kg (34,200 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 27 Starlink v2 mini optimized satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Mission marks 400th Falcon booster landing.
428
January 24, 202514:07
F9 B5B1063‑23
Vandenberg, SLC‑4E
Starlink: Group 11-6 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. With this launch, SpaceX has broken its pad turnaround time record at Space Launch Complex 4 East. Previous record was 3 days, 15 hours, 23 minutes, and 40 seconds, this has now gone down to 2 days, 22 hours, 21 minutes, and 10 seconds.
429
January 27, 202522:05
F9 B5B1076‑20
Cape Canaveral, SLC‑40
Starlink: Group 12-7 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
430
January 30, 202501:34
F9 B5B1073‑21
Kennedy, LC‑39A
Spainsat NG I
6,100 kg (13,400 lb)
GTO
Hisdesat
Success
No attempt
Communications satellite built on the Eurostar-Neo platform for the Spanish government. First of two launches for the Spainsat NG program. The booster was expended due to the performance needed to launch the satellite's mass to a geostationary transfer orbit.
431
February 1, 202523:02
F9 B5B1075‑17
Vandenberg, SLC-4E
Starlink: Group 11-4
~16,700 kg (36,800 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation. Even though the second stage was expected to deorbit for a controlled splashdown, the second stage's deorbit burn did not occur, causing it to remain in orbit. This was the third time in six months that a second stage had encountered a problem in flight. The stage made its uncontrolled reentry over Poland between 04:46 and 04:48, local time, on February 19. Several tanks that crashed in the western part of the country were collected by the Polish police.
432
February 4, 202510:15
F9 B5B1069‑21
Cape Canaveral, SLC‑40
Starlink: Group 12-3 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. 1st time flying a fairing half for the 25th time.
433
February 4, 202523:13
F9 B5B1086‑4
Kennedy, LC‑39A
WorldView Legion 5 & 6 (2 satellites)
1,500 kg (3,300 lb)
LEO
Maxar Technologies
Success
Success (LZ‑1)
Two earth observation satellites built by Maxar Technologies. Seventh time a second stage featured Falcon medium coast mission-extension kit.
434
February 8, 202519:18
F9 B5B1078‑17
Cape Canaveral, SLC‑40
Starlink: Group 12-9 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
435
February 11, 202502:09
F9 B5B1071‑23
Vandenberg, SLC-4E
Starlink: Group 11-10
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 23 Starlink v2 mini satellites to a 535 km (332 mi) orbit at an inclination of 53° to expand internet constellation.
436
February 11, 202518:53
F9 B5B1077‑18
Cape Canaveral, SLC‑40
Starlink: Group 12-18 (21 satellites)
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
437
February 15, 202506:14
F9 B5 B1067‑26
Cape Canaveral, SLC‑40
Starlink: Group 12-8
~16,500 kg (36,400 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 21 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster to fly and be recovered 26th time, new record. 1st time flying a fairing half for the 26th time. Both surpassed Space Shuttle Endeavour's tally of 25 reflights, now only trailing behind Space Shuttle Atlantis and Space Shuttle Discovery.
438
February 18, 202523:21
F9 B5B1080‑16
Cape Canaveral, SLC‑40
Starlink: Group 10-12 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (JRTI)
Launch of 23 Starlink v2 mini satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation. First booster landing in waters belonging to another nation (Exuma Sound) as part of an agreement with The Bahamas.
439
February 21, 202515:19
F9 B5B1076‑21
Cape Canaveral, SLC‑40
Starlink: Group 12-14 (23 satellites)
~17,100 kg (37,700 lb)
LEO
SpaceX
Success
Success (ASOG)
Launch of 23 Starlink v2 mini satellites, including 13 with direct-to-cell connectivity, to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
440
February 23, 202501:38
F9 B5B1082‑11
Vandenberg, SLC‑4E
Starlink: Group 15-1 (22 satellites)
~16,800 kg (37,000 lb)
LEO
SpaceX
Success
Success (OCISLY)
Launch of 22 Starlink v2 mini satellites to a 70° inclination orbit to expand internet constellation.
441
February 27, 202500:16
F9 B5B1083‑9
Kennedy, LC‑39A
IM-2 Nova-C "Athena" lunar landerLunar TrailblazerBrokkr-2 OdinChimera-1TBD
Unknown
TLI
NASA (CLPS)Intuitive MachinesAstroForgeEpic AerospaceTBD
Success
Success (ASOG)
IM-2 South Pole Mission, flying the second Nova-C lunar lander. The Polar Resources Ice Mining Experiment 1 (PRIME-1) payload will be delivered to the lunar south pole near Shackleton Crater for the CLPS program. Odin will travel to near Earth asteroid 2022 OB5. Two Geostationary satellites are undisclosed. 100th booster landing on ASOG.
· Future launches › 2025, future
November 6, 202501:25
November 6, 202501:25
Date and time (UTC)
November 6, 202501:25
Version,booster
F9 B5B1094‑5
Launch site
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-81
Orbit
LEO
Customer
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Date and time (UTC)
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 6, 202520:56
November 6, 202520:56
Date and time (UTC)
November 6, 202520:56
Version,booster
F9 B5B1093‑8
Launch site
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-14
Orbit
LEO
Customer
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Date and time (UTC)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
November 8, 202508:30
November 8, 202508:30
Date and time (UTC)
November 8, 202508:30
Version,booster
F9 B5B1069‑28
Launch site
Kennedy, LC‑39A
Payload
Starlink: Group 10-51
Orbit
LEO
Customer
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
Date and time (UTC)
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
November 10, 202522:12
November 10, 202522:12
Date and time (UTC)
November 10, 202522:12
Version,booster
F9 B5B1096‑3
Launch site
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-87
Orbit
LEO
Customer
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Date and time (UTC)
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 10, 2025
November 10, 2025
Date and time (UTC)
November 10, 2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
Transporter-15 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
November 14, 202501:08
November 14, 202501:08
Date and time (UTC)
November 14, 202501:08
Version,booster
F9 B5B1092‑8
Launch site
Kennedy, LC‑39A
Payload
Starlink: Group 6-89
Orbit
LEO
Customer
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Date and time (UTC)
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 14, 202511:00
November 14, 202511:00
Date and time (UTC)
November 14, 202511:00
Version,booster
F9 B5B1078‑24
Launch site
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-85
Orbit
LEO
Customer
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Date and time (UTC)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 16, 2025
November 16, 2025
Date and time (UTC)
November 16, 2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
Sentinel-6B
Orbit
LEO
Customer
NASA/NOAA/EUMETSAT/ESA
Identical to Sentinel-6A.
Identical to Sentinel-6A.
Date and time (UTC)
Identical to Sentinel-6A.
November 18, 202511:00
November 18, 202511:00
Date and time (UTC)
November 18, 202511:00
Version,booster
F9 B5B1085‑12
Launch site
Cape Canaveral, SLC‑40
Payload
Starlink: Group 6-94
Orbit
LEO
Customer
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
Date and time (UTC)
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 19, 202522:00
November 19, 202522:00
Date and time (UTC)
November 19, 202522:00
Version,booster
F9 B5B1071‑30
Launch site
Vandenberg, SLC‑4E
Payload
Starlink: Group 11-30
Orbit
LEO
Customer
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
Date and time (UTC)
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
November 2025
November 2025
Date and time (UTC)
November 2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
TSIS-2 & others
Orbit
SSO
Customer
NASA
NASA's Total and Spectral Solar Irradiance Sensor – 2. Rideshares include: SunCET, CubIXSS, SPARCS, and others.
NASA's Total and Spectral Solar Irradiance Sensor – 2. Rideshares include: SunCET, CubIXSS, SPARCS, and others.
Date and time (UTC)
NASA's Total and Spectral Solar Irradiance Sensor – 2. Rideshares include: SunCET, CubIXSS, SPARCS, and others.
Q4 2025
Q4 2025
Date and time (UTC)
Q4 2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
KOMPSAT-7A
Orbit
SSO
Customer
Korea Aerospace Research Institute
A lightweight Earth observation satellite.
A lightweight Earth observation satellite.
Date and time (UTC)
A lightweight Earth observation satellite.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Transport Layer A
Orbit
Polar LEO
Customer
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Transport Layer D
Orbit
Polar LEO
Customer
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Transport Layer E
Orbit
Polar LEO
Customer
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Transport Layer F
Orbit
Polar LEO
Customer
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Globalstar-3 M104–120 (17 satellites)
Orbit
LEO
Customer
Globalstar
Globalstar's third-generation satellite constellation, launching to a 52 degree inclination orbit at an altitude of 1,410 km.
Globalstar's third-generation satellite constellation, launching to a 52 degree inclination orbit at an altitude of 1,410 km.
Date and time (UTC)
Globalstar's third-generation satellite constellation, launching to a 52 degree inclination orbit at an altitude of 1,410 km.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
USSF-31
Orbit
TBA
Customer
USSF
Classified mission, part of Phase 2 US Space Force contract awarded in 2022.
Classified mission, part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Classified mission, part of Phase 2 US Space Force contract awarded in 2022.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
NROL-77
Orbit
Classified
Customer
NRO
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
2025
2025
Date and time (UTC)
2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Astranis Block 3 Mission (5 satellites)
Orbit
GTO
Customer
Astranis
5 MicroGEO satellites.
5 MicroGEO satellites.
Date and time (UTC)
5 MicroGEO satellites.
~2025
~2025
Date and time (UTC)
~2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
BlueBird Block 2 #7-10 (4 satellites)
Orbit
LEO
Customer
AST SpaceMobile
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
Date and time (UTC)
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
~2025
~2025
Date and time (UTC)
~2025
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
BlueBird Block 2 #11-14 (4 satellites)
Orbit
LEO
Customer
AST SpaceMobile
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
Date and time (UTC)
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
Date and time (UTC)
Version,booster
Launch site
Payload
Orbit
Customer
November 6, 202501:25
F9 B5B1094‑5
Cape Canaveral, SLC‑40
Starlink: Group 6-81
LEO
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 6, 202520:56
F9 B5B1093‑8
Vandenberg, SLC‑4E
Starlink: Group 11-14
LEO
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
November 8, 202508:30
F9 B5B1069‑28
Kennedy, LC‑39A
Starlink: Group 10-51
LEO
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 279 km (173 mi) orbit at an inclination of 53° to expand internet constellation.
November 10, 202522:12
F9 B5B1096‑3
Cape Canaveral, SLC‑40
Starlink: Group 6-87
LEO
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 10, 2025
F9 B5
Vandenberg, SLC‑4E
Transporter-15 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
November 14, 202501:08
F9 B5B1092‑8
Kennedy, LC‑39A
Starlink: Group 6-89
LEO
SpaceX
Launch of 29 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 14, 202511:00
F9 B5B1078‑24
Cape Canaveral, SLC‑40
Starlink: Group 6-85
LEO
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 16, 2025
F9 B5
Vandenberg, SLC‑4E
Sentinel-6B
LEO
NASA/NOAA/EUMETSAT/ESA
Identical to Sentinel-6A.
November 18, 202511:00
F9 B5B1085‑12
Cape Canaveral, SLC‑40
Starlink: Group 6-94
LEO
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 559 km (347 mi) orbit at an inclination of 43° to expand internet constellation.
November 19, 202522:00
F9 B5B1071‑30
Vandenberg, SLC‑4E
Starlink: Group 11-30
LEO
SpaceX
Launch of 28 Starlink v2 mini optimized satellites to a 295 km (183 mi) orbit at an inclination of 53° to expand internet constellation.
November 2025
F9 B5
Vandenberg, SLC‑4E
TSIS-2 & others
SSO
NASA
NASA's Total and Spectral Solar Irradiance Sensor – 2. Rideshares include: SunCET, CubIXSS, SPARCS, and others.
Q4 2025
F9 B5
TBA (FL)
KOMPSAT-7A
SSO
Korea Aerospace Research Institute
A lightweight Earth observation satellite.
2025
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 1 Transport Layer A
Polar LEO
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 1 Transport Layer D
Polar LEO
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 1 Transport Layer E
Polar LEO
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 1 Transport Layer F
Polar LEO
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
2025
F9 B5
TBA (FL)
Globalstar-3 M104–120 (17 satellites)
LEO
Globalstar
Globalstar's third-generation satellite constellation, launching to a 52 degree inclination orbit at an altitude of 1,410 km.
2025
F9 B5
TBA (FL)
USSF-31
TBA
USSF
Classified mission, part of Phase 2 US Space Force contract awarded in 2022.
2025
F9 B5
TBA (FL)
NROL-77
Classified
NRO
Launch is part of Phase 2 US Air Force contract awarded in 2022.
2025
F9 B5
TBA (FL)
Astranis Block 3 Mission (5 satellites)
GTO
Astranis
5 MicroGEO satellites.
~2025
F9 B5
TBA (FL)
BlueBird Block 2 (4 satellites)
LEO
AST SpaceMobile
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
~2025
F9 B5
TBA (FL)
BlueBird Block 2 (4 satellites)
LEO
AST SpaceMobile
Cellphone-compatible broadband constellation. The next-generation Block 2 BlueBird satellites delivers 10x the bandwidth of BlueBird Block 1 satellites, allowing continuous cellular broadband service coverage. They will feature a ~2,400 sq ft (220 m2) communications array, the largest ever developed commercially.
· Future launches › 2026
Q1 2026
Q1 2026
Date and time (UTC)
Q1 2026
Version,booster
F9 B5
Launch site
TBD
Payload
Transporter-16 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
May 2026
May 2026
Date and time (UTC)
May 2026
Version,booster
F9 B5
Launch site
TBD
Payload
Haven-1
Orbit
LEO
Customer
Vast
Launch of a new commercial space station by Vast Space.
Launch of a new commercial space station by Vast Space.
Date and time (UTC)
Launch of a new commercial space station by Vast Space.
Late June 2026
Late June 2026
Date and time (UTC)
Late June 2026
Version,booster
F9 B5
Launch site
Kennedy, LC‑39A
Payload
Vast-1
Orbit
LEO
Customer
Vast
First crewed mission to the Haven-1 space station.
First crewed mission to the Haven-1 space station.
Date and time (UTC)
First crewed mission to the Haven-1 space station.
Q2 2026
Q2 2026
Date and time (UTC)
Q2 2026
Version,booster
F9 B5
Launch site
TBD
Payload
Transporter-17 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Q2 2026
Q2 2026
Date and time (UTC)
Q2 2026
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
CHORUS
Orbit
LEO
Customer
MDA
Announced in October 2023, CHORUS will be a commercial Earth observation constellation owned and operated by MDA Ltd. Will utilize C and X-band SAR.
Announced in October 2023, CHORUS will be a commercial Earth observation constellation owned and operated by MDA Ltd. Will utilize C and X-band SAR.
Date and time (UTC)
Announced in October 2023, CHORUS will be a commercial Earth observation constellation owned and operated by MDA Ltd. Will utilize C and X-band SAR.
July 2026
July 2026
Date and time (UTC)
July 2026
Version,booster
Falcon Heavy B5B1091‑x (core)
Launch site
Kennedy, LC‑39A
Payload
Griffin Mission 1
Orbit
TLI
Customer
AstroboticNASA (Artemis)
B1072‑x (side)
B1072‑x (side)
Date and time (UTC)
B1072‑x (side)
B10?? (side)
B10?? (side)
Date and time (UTC)
B10?? (side)
Astrobotic's Griffin lunar lander was originally expected to deliver NASA's VIPER rover to the lunar south pole prior to its cancellation. Booster recovery method is unconfirmed, but could possibly feature the first Falcon Heavy center core recovery attempt since STP-2. Amidst cost growth and delays to readiness of the rover and the Griffin lander, the VIPER program was ended in July 2024, with the rover planned to be disassembled and its instruments and components reused for other lunar missions. The agency still plans to support the Griffin lander to arrive on the moon in fall of 2025, though with a mass simulator in place of the VIPER rover. NASA expects the primary objectives of VIPER to be fulfilled by an array of other missions planned for the next several years.
Astrobotic's Griffin lunar lander was originally expected to deliver NASA's VIPER rover to the lunar south pole prior to its cancellation. Booster recovery method is unconfirmed, but could possibly feature the first Falcon Heavy center core recovery attempt since STP-2. Amidst cost growth and delays to readiness of the rover and the Griffin lander, the VIPER program was ended in July 2024, with the rover planned to be disassembled and its instruments and components reused for other lunar missions. The agency still plans to support the Griffin lander to arrive on the moon in fall of 2025, though with a mass simulator in place of the VIPER rover. NASA expects the primary objectives of VIPER to be fulfilled by an array of other missions planned for the next several years.
Date and time (UTC)
Astrobotic's Griffin lunar lander was originally expected to deliver NASA's VIPER rover to the lunar south pole prior to its cancellation. Booster recovery method is unconfirmed, but could possibly feature the first Falcon Heavy center core recovery attempt since STP-2. Amidst cost growth and delays to readiness of the rover and the Griffin lander, the VIPER program was ended in July 2024, with the rover planned to be disassembled and its instruments and components reused for other lunar missions. The agency still plans to support the Griffin lander to arrive on the moon in fall of 2025, though with a mass simulator in place of the VIPER rover. NASA expects the primary objectives of VIPER to be fulfilled by an array of other missions planned for the next several years.
August 2026
August 2026
Date and time (UTC)
August 2026
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer A
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
October 2026
October 2026
Date and time (UTC)
October 2026
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer C
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
October 2026
October 2026
Date and time (UTC)
October 2026
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer D
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
December 2026
December 2026
Date and time (UTC)
December 2026
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer E
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Q4 2026
Q4 2026
Date and time (UTC)
Q4 2026
Version,booster
F9 B5
Launch site
TBD
Payload
Transporter-18 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
2026(2 flights)
2026(2 flights)
Date and time (UTC)
2026(2 flights)
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
SpaceX CRS-34 to SpaceX CRS-35
Orbit
LEO (ISS)
Customer
NASA (CRS)
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026.
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026.
Date and time (UTC)
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026.
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Tracking Layer C
Orbit
Polar LEO
Customer
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Launch part of Phase 2 US Space Force contract awarded in 2022.
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 1 Tracking Layer E
Orbit
Polar LEO
Customer
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
Launch part of Phase 2 US Space Force contract awarded in 2022.
Date and time (UTC)
Launch part of Phase 2 US Space Force contract awarded in 2022.
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Skynet 6A
Orbit
GTO
Customer
Airbus / UK Ministry of Defence
British military communications satellite ordered to bridge the gap between Skynet-5 and its successor.
British military communications satellite ordered to bridge the gap between Skynet-5 and its successor.
Date and time (UTC)
British military communications satellite ordered to bridge the gap between Skynet-5 and its successor.
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
Kennedy, LC‑39A
Payload
IM-3 Nova-C lunar lander
Orbit
TLI
Customer
NASA (CLPS)Intuitive Machines
Third mission for Intuitive Machines, with multiple rideshare payloads. This mission was selected by NASA under the CLPS program in November 2021.
Third mission for Intuitive Machines, with multiple rideshare payloads. This mission was selected by NASA under the CLPS program in November 2021.
Date and time (UTC)
Third mission for Intuitive Machines, with multiple rideshare payloads. This mission was selected by NASA under the CLPS program in November 2021.
~2026
~2026
Date and time (UTC)
~2026
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-75
Orbit
GSO
Customer
USSF
~2026
~2026
Date and time (UTC)
~2026
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-70
Orbit
GSO
Customer
USSF
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Arabsat 7A
Orbit
GTO
Customer
Arabsat
Announced in September 2022, Arabsat 7A will enter a geostationary orbit after its launch by a Falcon 9 rocket.
Announced in September 2022, Arabsat 7A will enter a geostationary orbit after its launch by a Falcon 9 rocket.
Date and time (UTC)
Announced in September 2022, Arabsat 7A will enter a geostationary orbit after its launch by a Falcon 9 rocket.
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Mission Robotic Vehicle (MRV) × 1Mission Extension Pod (MEP) × 3
Orbit
GTO
Customer
Northrop Grumman
Developed from Northrop Grumman's 2,000 kg Mission Extension Vehicle architecture. One MEP (400 kg each) will be attached to Optus D3.
Developed from Northrop Grumman's 2,000 kg Mission Extension Vehicle architecture. One MEP (400 kg each) will be attached to Optus D3.
Date and time (UTC)
Developed from Northrop Grumman's 2,000 kg Mission Extension Vehicle architecture. One MEP (400 kg each) will be attached to Optus D3.
2026
2026
Date and time (UTC)
2026
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
O3b mPOWER 12 & 13
Orbit
MEO
Customer
SES
Two additional satellites were announced in October 2023 due to electrical issues discovered in the first four satellites of the constellation.
Two additional satellites were announced in October 2023 due to electrical issues discovered in the first four satellites of the constellation.
Date and time (UTC)
Two additional satellites were announced in October 2023 due to electrical issues discovered in the first four satellites of the constellation.
2026
2026
Date and time (UTC)
2026
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
Astrobotic Technology Lunar Lander
Orbit
TLI
Customer
Astrobotic Technology
Astrobotic's third upcoming lander mission to the Moon. Targeting a South Pole landing in 2026.
Astrobotic's third upcoming lander mission to the Moon. Targeting a South Pole landing in 2026.
Date and time (UTC)
Astrobotic's third upcoming lander mission to the Moon. Targeting a South Pole landing in 2026.
2026 and later(14 flights)
2026 and later(14 flights)
Date and time (UTC)
2026 and later(14 flights)
Version,booster
F9 B5
Launch site
TBD
Payload
Telesat Lightspeed × 18
Orbit
LEO
Customer
Telesat
Announced in September 2023, Telesat has booked 14 launches of up to 18 satellites each.
Announced in September 2023, Telesat has booked 14 launches of up to 18 satellites each.
Date and time (UTC)
Announced in September 2023, Telesat has booked 14 launches of up to 18 satellites each.
2026–2030
2026–2030
Date and time (UTC)
2026–2030
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
3 more launches (Crew-12 through Crew-14)
Orbit
LEO (ISS)
Customer
NASA (ISS)
In June 2022, NASA announced it purchased an additional 5 crewed flights (Crew-10 through Crew-14) from SpaceX in addition to the previous 9 missions on top of the $3.5 billion contract.
In June 2022, NASA announced it purchased an additional 5 crewed flights (Crew-10 through Crew-14) from SpaceX in addition to the previous 9 missions on top of the $3.5 billion contract.
Date and time (UTC)
In June 2022, NASA announced it purchased an additional 5 crewed flights (Crew-10 through Crew-14) from SpaceX in addition to the previous 9 missions on top of the $3.5 billion contract.
Date and time (UTC)
Version,booster
Launch site
Payload
Orbit
Customer
Q1 2026
F9 B5
TBD
Transporter-16 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
May 2026
F9 B5
TBD
Haven-1
LEO
Vast
Launch of a new commercial space station by Vast Space.
Late June 2026
F9 B5
Kennedy, LC‑39A
Vast-1
LEO
Vast
First crewed mission to the Haven-1 space station.
Q2 2026
F9 B5
TBD
Transporter-17 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Q2 2026
F9 B5
TBA (FL)
CHORUS
LEO
MDA
Announced in October 2023, CHORUS will be a commercial Earth observation constellation owned and operated by MDA Ltd. Will utilize C and X-band SAR.
July 2026
Falcon Heavy B5B1091‑x (core)
Kennedy, LC‑39A
Griffin Mission 1
TLI
AstroboticNASA (Artemis)
B1072‑x (side)
B10?? (side)
Astrobotic's Griffin lunar lander was originally expected to deliver NASA's VIPER rover to the lunar south pole prior to its cancellation. Booster recovery method is unconfirmed, but could possibly feature the first Falcon Heavy center core recovery attempt since STP-2. Amidst cost growth and delays to readiness of the rover and the Griffin lander, the VIPER program was ended in July 2024, with the rover planned to be disassembled and its instruments and components reused for other lunar missions. The agency still plans to support the Griffin lander to arrive on the moon in fall of 2025, though with a mass simulator in place of the VIPER rover. NASA expects the primary objectives of VIPER to be fulfilled by an array of other missions planned for the next several years.
August 2026
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer A
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
October 2026
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer C
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
October 2026
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer D
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
December 2026
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer E
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Q4 2026
F9 B5
TBD
Transporter-18 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
2026(2 flights)
F9 B5
TBA (FL)
SpaceX CRS-34 to SpaceX CRS-35
LEO (ISS)
NASA (CRS)
Six additional CRS-2 missions for Dragon 2 were announced in March 2022, resupplying the ISS until 2026.
2026
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 1 Tracking Layer C
Polar LEO
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
2026
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 1 Tracking Layer E
Polar LEO
SDA
Launch part of Phase 2 US Space Force contract awarded in 2022.
2026
F9 B5
TBA (FL)
Skynet 6A
GTO
Airbus / UK Ministry of Defence
British military communications satellite ordered to bridge the gap between Skynet-5 and its successor.
2026
F9 B5
Kennedy, LC‑39A
IM-3 Nova-C lunar lander
TLI
NASA (CLPS)Intuitive Machines
Third mission for Intuitive Machines, with multiple rideshare payloads. This mission was selected by NASA under the CLPS program in November 2021.
~2026
Falcon Heavy B5
Kennedy, LC‑39A
USSF-75
GSO
USSF
~2026
Falcon Heavy B5
Kennedy, LC‑39A
USSF-70
GSO
USSF
2026
F9 B5
TBA (FL)
Arabsat 7A
GTO
Arabsat
Announced in September 2022, Arabsat 7A will enter a geostationary orbit after its launch by a Falcon 9 rocket.
2026
F9 B5
TBA (FL)
Mission Robotic Vehicle (MRV) × 1Mission Extension Pod (MEP) × 3
GTO
Northrop Grumman
Developed from Northrop Grumman's 2,000 kg Mission Extension Vehicle architecture. One MEP (400 kg each) will be attached to Optus D3.
2026
F9 B5
TBA (FL)
O3b mPOWER 12 & 13
MEO
SES
Two additional satellites were announced in October 2023 due to electrical issues discovered in the first four satellites of the constellation.
2026
Falcon Heavy B5
Kennedy, LC‑39A
Astrobotic Technology Lunar Lander
TLI
Astrobotic Technology
Astrobotic's third upcoming lander mission to the Moon. Targeting a South Pole landing in 2026.
2026 and later(14 flights)
F9 B5
TBD
Telesat Lightspeed × 18
LEO
Telesat
Announced in September 2023, Telesat has booked 14 launches of up to 18 satellites each.
2026–2030
F9 B5
TBA (FL)
3 more launches (Crew-12 through Crew-14)
LEO (ISS)
NASA (ISS)
In June 2022, NASA announced it purchased an additional 5 crewed flights (Crew-10 through Crew-14) from SpaceX in addition to the previous 9 missions on top of the $3.5 billion contract.
· Future launches › 2027 and beyond
January 2027
January 2027
Date and time (UTC)
January 2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer F
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
February 2027
February 2027
Date and time (UTC)
February 2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer G
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
March 2027
March 2027
Date and time (UTC)
March 2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer H
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Q1 2027
Q1 2027
Date and time (UTC)
Q1 2027
Version,booster
F9 B5
Launch site
TBD
Payload
Transporter-19 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
April 2027
April 2027
Date and time (UTC)
April 2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer I
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
May 2027
May 2027
Date and time (UTC)
May 2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
SDA Tranche 2 Transport layer J
Orbit
Polar LEO
Customer
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Date and time (UTC)
Launch is part of Phase 2 US Air Force contract awarded in 2022.
May 2027
May 2027
Date and time (UTC)
May 2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
Nancy Grace Roman Space Telescope
Orbit
Sun–Earth L2
Customer
NASA
Flagship-class infrared space telescope. One of two space telescopes donated by the NRO in 2012.
Flagship-class infrared space telescope. One of two space telescopes donated by the NRO in 2012.
Date and time (UTC)
Flagship-class infrared space telescope. One of two space telescopes donated by the NRO in 2012.
Q2 2027
Q2 2027
Date and time (UTC)
Q2 2027
Version,booster
F9 B5
Launch site
TBD
Payload
Transporter-20 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
August 2027
August 2027
Date and time (UTC)
August 2027
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
COSI
Orbit
LEO
Customer
NASA
Compton Spectrometer and Imager (COSI).
Compton Spectrometer and Imager (COSI).
Date and time (UTC)
Compton Spectrometer and Imager (COSI).
Q4 2027
Q4 2027
Date and time (UTC)
Q4 2027
Version,booster
F9 B5
Launch site
TBD
Payload
Transporter-21 (smallsat rideshare)
Orbit
SSO
Customer
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
Date and time (UTC)
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
H2 2027
H2 2027
Date and time (UTC)
H2 2027
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
GEO-KOMPSAT-3
Orbit
GTO
Customer
KASA
Also known as Cheollian-3. A South Korean communication satellite with a mass of 3.7 tonnes, replacing GEO-Kompsat-1.
Also known as Cheollian-3. A South Korean communication satellite with a mass of 3.7 tonnes, replacing GEO-Kompsat-1.
Date and time (UTC)
Also known as Cheollian-3. A South Korean communication satellite with a mass of 3.7 tonnes, replacing GEO-Kompsat-1.
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
NROL-96
Orbit
Classified
Customer
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
NROL-97
Orbit
Classified
Customer
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025. First NRO launch from a Falcon Heavy.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025. First NRO launch from a Falcon Heavy.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025. First NRO launch from a Falcon Heavy.
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
NROL-157
Orbit
Classified
Customer
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-186
Orbit
TBA
Customer
USSF
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
USSF-234
Orbit
TBA
Customer
USSF
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-174
Orbit
TBA
Customer
USSF
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-15 (GPS IIIF-3)
Orbit
MEO
Customer
USSF
Part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-206 (WGS-12)
Orbit
GTO
Customer
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-155
Orbit
TBA
Customer
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
USSF-149
Orbit
TBA
Customer
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
USSF-63
Orbit
TBA
Customer
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
NROL-86
Orbit
TBA
Customer
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
Date and time (UTC)
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
H2 2027
H2 2027
Date and time (UTC)
H2 2027
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Al Yah 4
Orbit
GTO
Customer
Yahsat
Replacement for Al Yah 1.
Replacement for Al Yah 1.
Date and time (UTC)
Replacement for Al Yah 1.
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
Vandenberg, SLC‑4E
Payload
JPSS-4
Orbit
SSO
Customer
NOAA
Joint Polar Satellite System (JPSS).
Joint Polar Satellite System (JPSS).
Date and time (UTC)
Joint Polar Satellite System (JPSS).
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Thaicom-10
Orbit
GTO
Customer
Thaicom
2027
2027
Date and time (UTC)
2027
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
Power and Propulsion Element (PPE)Habitation and Logistics Outpost (HALO)
Orbit
TLI
Customer
NASA (Artemis)
First two Gateway space station modules as part of the Artemis program, awarded in February 2021. The launch will cost NASA $331.8 million and will utilize Falcon Heavy's extended fairing.
First two Gateway space station modules as part of the Artemis program, awarded in February 2021. The launch will cost NASA $331.8 million and will utilize Falcon Heavy's extended fairing.
Date and time (UTC)
First two Gateway space station modules as part of the Artemis program, awarded in February 2021. The launch will cost NASA $331.8 million and will utilize Falcon Heavy's extended fairing.
2027
2027
Date and time (UTC)
2027
Version,booster
F9 B5
Launch site
TBA
Payload
IM-4
Orbit
TLI
Customer
NASA (CLPS)Intuitive Machines
Two lunar relay satellites and IM-4 lunar lander.
Two lunar relay satellites and IM-4 lunar lander.
Date and time (UTC)
Two lunar relay satellites and IM-4 lunar lander.
July 5, 2028
July 5, 2028
Date and time (UTC)
July 5, 2028
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
Dragonfly
Customer
NASA (New Frontiers Program)
Awarded in November 2024. The launch will cost NASA $256.6 million. First Falcon mission to carry an RTG.
Awarded in November 2024. The launch will cost NASA $256.6 million. First Falcon mission to carry an RTG.
Date and time (UTC)
Awarded in November 2024. The launch will cost NASA $256.6 million. First Falcon mission to carry an RTG.
2028
2028
Date and time (UTC)
2028
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
NEO Surveyor
Orbit
Sun–Earth L1
Customer
NASA
Space-based infrared telescope designed to survey for potentially hazardous asteroids.
Space-based infrared telescope designed to survey for potentially hazardous asteroids.
Date and time (UTC)
Space-based infrared telescope designed to survey for potentially hazardous asteroids.
h2 2028
h2 2028
Date and time (UTC)
h2 2028
Version,booster
F9 B5
Launch site
TBA (FL)
Payload
Al Yah 5
Orbit
GTO
Customer
Yahsat
Replacement for Al Yah 2.
Replacement for Al Yah 2.
Date and time (UTC)
Replacement for Al Yah 2.
2028
2028
Date and time (UTC)
2028
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
GLS-1 (Dragon XL)
Orbit
TLI
Customer
NASA (Gateway Logistics Services)
In March 2020, NASA announced its first contract for the Gateway Logistics Services that guarantees at least two launches on a new variant of the Dragon spacecraft that will carry over 5 tonnes of cargo to the Lunar Gateway on 6–12 months long missions.
In March 2020, NASA announced its first contract for the Gateway Logistics Services that guarantees at least two launches on a new variant of the Dragon spacecraft that will carry over 5 tonnes of cargo to the Lunar Gateway on 6–12 months long missions.
Date and time (UTC)
In March 2020, NASA announced its first contract for the Gateway Logistics Services that guarantees at least two launches on a new variant of the Dragon spacecraft that will carry over 5 tonnes of cargo to the Lunar Gateway on 6–12 months long missions.
July 2029
July 2029
Date and time (UTC)
July 2029
Version,booster
F9 B5
Launch site
TBD
Payload
GRACE-C1, C2
Orbit
Polar LEO
Customer
NASA / DLR
Gravity Recovery And Climate Experiment-Continuity (GRACE-C).
Gravity Recovery And Climate Experiment-Continuity (GRACE-C).
Date and time (UTC)
Gravity Recovery And Climate Experiment-Continuity (GRACE-C).
2029
2029
Date and time (UTC)
2029
Version,booster
Falcon Heavy B5
Launch site
Kennedy, LC‑39A
Payload
GLS-2 (Dragon XL)
Orbit
TLI
Customer
NASA (Gateway Logistics Services)
Second Dragon XL logistics module.
Second Dragon XL logistics module.
Date and time (UTC)
Second Dragon XL logistics module.
TBD
TBD
Date and time (UTC)
TBD
Version,booster
F9 B5
Launch site
TBD
Payload
CAS500-4 Likely Rideshare
Orbit
SSO
Customer
Korea Aerospace Industries
A satellite to monitor Korean agriculture.
A satellite to monitor Korean agriculture.
Date and time (UTC)
A satellite to monitor Korean agriculture.
Date and time (UTC)
Version,booster
Launch site
Payload
Orbit
Customer
January 2027
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer F
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
February 2027
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer G
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
March 2027
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer H
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
Q1 2027
F9 B5
TBD
Transporter-19 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
April 2027
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer I
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
May 2027
F9 B5
Vandenberg, SLC‑4E
SDA Tranche 2 Transport layer J
Polar LEO
SDA
Launch is part of Phase 2 US Air Force contract awarded in 2022.
May 2027
Falcon Heavy B5
Kennedy, LC‑39A
Nancy Grace Roman Space Telescope
Sun–Earth L2
NASA
Flagship-class infrared space telescope. One of two space telescopes donated by the NRO in 2012.
Q2 2027
F9 B5
TBD
Transporter-20 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
August 2027
F9 B5
TBA (FL)
COSI
LEO
NASA
Compton Spectrometer and Imager (COSI).
Q4 2027
F9 B5
TBD
Transporter-21 (smallsat rideshare)
SSO
Various
Dedicated SmallSat rideshare mission to sun-synchronous orbit.
H2 2027
F9 B5
TBA (FL)
GEO-KOMPSAT-3
GTO
KASA
Also known as Cheollian-3. A South Korean communication satellite with a mass of 3.7 tonnes, replacing GEO-Kompsat-1.
2027
F9 B5
Vandenberg, SLC‑4E
NROL-96
Classified
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
NROL-97
Classified
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025. First NRO launch from a Falcon Heavy.
2027
F9 B5
Vandenberg, SLC‑4E
NROL-157
Classified
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
USSF-186
TBA
USSF
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
F9 B5
TBA (FL)
USSF-234
TBA
USSF
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
USSF-174
TBA
USSF
Classified mission, part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
USSF-15 (GPS IIIF-3)
MEO
USSF
Part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
USSF-206 (WGS-12)
GTO
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
USSF-155
TBA
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
F9 B5
TBA (FL)
USSF-149
TBA
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
USSF-63
TBA
USSF
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
2027
Falcon Heavy B5
Kennedy, LC‑39A
NROL-86
TBA
NRO
Launch is part of Phase 3 Lane 2 US Space Force contract awarded in 2025.
H2 2027
F9 B5
TBA (FL)
Al Yah 4
GTO
Yahsat
Replacement for Al Yah 1.
2027
F9 B5
Vandenberg, SLC‑4E
JPSS-4
SSO
NOAA

References

  1. SpaceX CRS-7 and Starlink 9-3
  2. The AMOS-6 spacecraft was destroyed in a static fire test before its planned launch; the mission is counted as a failure
  3. SpaceX CRS-1
  4. only trailing behind Space Shuttle Discovery, being reflown 39 times
  5. There was also an on-pad explosion of an R-7 family rocket; sometimes it is counted as a launch, resulting in 64 launche
  6. Controlled descent; ocean touchdown control failed; no recovery
  7. Passive reentry failed before parachute deployment
  8. Controlled descent; soft vertical ocean touchdown; no recovery
  9. While not reaching the goal of 100 launches in a calendar year, SpaceX completed 100 launches in 365 days between Decemb
  10. Falcon 9 first-stage boosters have a four-digit serial number. A hyphen followed by a number indicates the flight count.
  11. Dragon spacecraft have a three-digit serial number. A hyphen followed by a number indicates the flight count. For exampl
  12. Many Transporter and Bandwagon payloads are not public, or don't have a publicly revealed mass. SpaceX has not published
  13. "Falcon 9 Overview"
    https://web.archive.org/web/20140805175724/http://www.spacex.com/falcon9
  14. "Elon Musk on SpaceX's Reusable Rocket Plans"
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  15. "Wow! SpaceX Lands Orbital Rocket Successfully in Historic First"
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  16. "How Much Cheaper Are SpaceX Reusable Rockets? Now We Know"
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  17. "SpaceX: Elon Musk breaks down the cost of reusable rockets"
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  18. X (formerly Twitter)
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  20. Musk, Elon [@elonmusk]
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  21. "SpaceX launches Falcon 9 launch following Saturday night scrub"
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  22. Spaceflightnow.com
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  23. "With Block 5, SpaceX to increase launch cadence and lower prices"
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  24. SpaceNews
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  25. SpaceNews
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  26. "SpaceX could launch 100 missions in 2023, Elon Musk says"
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  27. X (formerly Twitter)
    https://twitter.com/SpaceX/status/1745941814165815717
  28. Florida Today
    https://www.floridatoday.com/story/tech/science/space/2024/12/31/florida-space-coast-notches-record-93rd-rocket-launch-in-single-year-from-cape-canaveral/77324062007/
  29. Twitter
    https://twitter.com/TurkeyBeaver/status/1742524679091269656
  30. "Launch industry asks Congress for regulatory reforms"
    https://spacenews.com/launch-industry-asks-congress-for-regulatory-reforms/
  31. "And, if all goes well, SpaceX's total launch mass to orbit will increase ~50% next year, not including Starship"
    https://twitter.com/elonmusk/status/1740761924806271309
  32. Astro Awards LIVE in-person at Paramount Theatre, Austin, TX!
    https://www.youtube.com/watch?v=XFTSGDkATO0
  33. X (Formerly Twitter)
    https://x.com/TurkeyBeaver/status/1853983823555350856
  34. X (Formerly Twitter)
    https://x.com/dpoddolphinpro/status/1874191808751972447
  35. "SpaceX's first Falcon 9 launch of 2024 features first 6 direct-to-cell Starlink satellites – Spaceflight Now"
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  36. Spaceflight Now
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  37. Ovzon
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  38. www.businesswire.com
    https://www.businesswire.com/news/home/20240110642277/en/Redwire-Roll-Out-Solar-Arrays-Successfully-Deployed-on-First-Commercial-GEO-Satellite-for-Maxar%E2%80%99s-Ovzon-3-Mission
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    https://spacenews.com/ovzon-3-successfully-deploys-solar-arrays-in-geostationary-orbit/
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  41. "#3 on the year. We also set a new Falcon record for total time from hangar rollout to launch. 6 Hrs, 33 minutes. We will continue to push to improve all facets of the operation, with the priority always on the safety of the team and the reliability of the hardware"
    https://x.com/TurkeyBeaver/status/1744146732865278451
  42. Space.com
    https://www.space.com/spacex-starlink-launch-group-7-10
  43. Spaceflight Now
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    https://x.com/SpaceX/status/1746731453105549637
  45. Twitter
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  46. Spacenews
    https://spacenews.com/spacex-launches-third-axiom-mission-to-iss/
  47. Next Spaceflight
    https://nextspaceflight.com/launches/details/6790
  48. Axiom Space
    https://www.axiomspace.com/press-release/axiom-spacex-deal
  49. NASA
    https://www.nasa.gov/press-release/nasa-selects-axiom-space-for-third-private-astronaut-station-mission
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  52. Spaceflight Now
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  53. Space.com
    https://www.space.com/spacex-cygnus-cargo-spacecraft-ng-20-launch
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  69. "Thales Alenia Space and Telkom Indonesia to build HTS 113BT telecommunications satellite to provide more capacity over indonesia"
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  78. "To date, SpaceX has launched nearly 1,000 smallsats for 130+ customers across our entire Rideshare program. Rideshare significantly increases access to space for small satellite operators around the world"
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  91. Space.com
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  92. "Time from landing to arrival is about 50 hours, something that is really hard to pull off for a mission coming from over 600 km away. ASOG should be quickly leaving early tomorrow for its next mission which should be Starlink Group 6–45 this Saturday evening"
    https://x.com/Alexphysics13/status/1773164259528016044?s=20
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  94. Spaceflight Now
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  95. Space.com
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  96. Space.com
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  97. Space.com
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  98. Space.com
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  99. "SpaceX to offer mid-inclination smallsat rideshare launches"
    https://spacenews.com/spacex-to-offer-mid-inclination-smallsat-rideshare-launches/
  100. Space.com
    https://www.space.com/spacex-starlink-launch-group-6-48
  101. Space.com
    https://www.space.com/spacex-space-force-mission-launch-ussf-62
  102. "Space Systems Command awards $78 million to Ball Aerospace for second Weather System Follow-on-Microwave Satellite"
    https://www.ssc.spaceforce.mil/LinkClick.aspx?fileticket=9O_rQGKifLk%3d&portalid=3
  103. Space.com
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