Space Launch Complex 4 (SLC-4) is a launch and landing site at Vandenberg Space Force Base, California, U.S. It has two pads, both of which are used by SpaceX for Falcon 9, one for launch operations, and the other as Landing Zone 4 (LZ-4) for SpaceX landings.
Launch site | Vandenberg Space Force Base | ||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Location | 34°37′59″N 120°36′47″W / 34.633°N 120.613°W | ||||||||||||||||||||||||||||||||||||
Time zone | UTC−08:00 (PST) | ||||||||||||||||||||||||||||||||||||
• Summer (DST) | UTC−07:00 (PDT) | ||||||||||||||||||||||||||||||||||||
Short name | SLC-4 | ||||||||||||||||||||||||||||||||||||
Operator |
| ||||||||||||||||||||||||||||||||||||
Total launches | 261 | ||||||||||||||||||||||||||||||||||||
Launch pad(s) | 2 (1 became a landing zone for Falcon 9) | ||||||||||||||||||||||||||||||||||||
Orbital inclination range | 55–145°[1] | ||||||||||||||||||||||||||||||||||||
|
The complex was previously used by Atlas and Titan rockets between 1963 and 2005. It consisted of two launch pads, SLC-4W and SLC-4E, which were formerly designated PALC-2-3 and PALC-2-4 respectively. Both pads were built for use by Atlas-Agena rockets, but were later rebuilt to handle Titan rockets. The designation SLC-4 was applied at the time of the conversion to launch Titan launch vehicles.[2]
Both pads at Space Launch Complex 4 are currently leased by SpaceX. SLC-4E is leased as a launch site for the Falcon 9 rocket, which first flew from Vandenberg on 29 September 2013, following a 24-month refurbishment program which had started in early 2011.[3][4] SpaceX began a five-year lease of Launch Complex 4 West in February 2015 in order to use that area as a landing pad to bring back VTVL return-to-launch-site (RTLS) first-stage boosters of the reusable Falcon 9 launch vehicle. That pad was later named by SpaceX as Landing Zone 4 and first used operationally for a Falcon 9 booster landing in 2018.
SLC-4E
editAtlas-Agena
editThe first launch from PALC2-4 occurred on 14 August 1964, when a KH-7 satellite was launched by an Atlas-Agena D. After 27 Atlas-Agena launches, the last of which was on 4 June 1967, the complex was deactivated.[5]
Titan IIID
editDuring 1971 the complex was reactivated and refurbished for use by the Martin Marietta Titan III launch vehicles. The Titan IIID made its maiden flight from SLC-4E on 15 June 1971, launching the first KH-9 Hexagon satellite.[6] The first KH-11 Kennan satellite was launched from the complex on 19 December 1976.[7] All 22 Titan IIIDs were launched from SLC-4E, with the last occurring on 17 November 1982.
Titan 34D
editThe complex was then refurbished to accommodate the Martin Marietta Titan 34D. Seven Titan 34Ds were launched between 20 June 1983, and 6 November 1988.[8] SLC-4E hosted one of the most dramatic launch accidents in US history when a Titan 34D-9 carrying a KH-9 photoreconnaissance satellite exploded a few hundred feet above the pad on 18 April 1986. The enormous blast showered the launch complex with debris and toxic propellant (hydrazine and dinitrogen tetroxide), resulting in extensive damage. 16 months after the accident, the pad was back in commission when it hosted a successful launch of a KH-11 satellite.[9][10]
Titan IV
editThe last Titan variant to use the complex was the Titan IV, starting on 8 March 1991, with the launch of Lacrosse 2. On 19 October 2005, the last flight of a Titan rocket occurred, when a Titan IVB was launched from SLC-4E, with an Improved Crystal satellite. Following this launch, the complex was deactivated, having been used for 68 launches.[11] [12]
Falcon 9
editSpaceX refurbished SLC–4E for Falcon 9 launches in a 24-month process that began in early 2011.[3] The draft environmental impact assessment with a finding of "no significant impact" was published in February 2011.[3] Demolition began on the pad's fixed and mobile service towers in summer 2011.[4]
By late 2012, SpaceX anticipated that the initial launch from the Vandenberg pad would be in 2013, with the larger variant Falcon 9 v1.1.[13] As the pad was nearing completion in February 2013, the first launch was scheduled for summer 2013,[14] but was delayed until September 2013.
Launch history
editStatistics
editAtlas (1964–1967)
editDate/time (GMT) | Launch vehicle | Serial numbers | Trajectory | Result | Payload | Remarks | ||
---|---|---|---|---|---|---|---|---|
1964-10-08 |
Atlas SLV-3 Agena-D | 7103 | LEO (target) | Failure | KH-7 Gambit 4012 | Agena engine malfunction. RSO destruct | ||
1964-12-04 18:57 |
Atlas SLV-3 Agena-D | 7105 | LEO | Success | KH-7 Gambit 4014 | |||
1965-04-03 21:25 |
Atlas SLV-3 Agena-D | 7401 | LEO | Success | SNAPSHOT | First and only nuclear reactor powered American satellite. | ||
1965-04-28 20:17 |
Atlas SLV-3 Agena-D | 7107 | LEO | Success | KH-7 Gambit 4017 | |||
1965-05-27 19:30 |
Atlas SLV-3 Agena-D | 7108 | LEO | Success | KH-7 Gambit 4018 | |||
1965-06-25 19:30 |
Atlas SLV-3 Agena-D | 7109 | LEO | Success | KH-7 Gambit 4019 | |||
1965-07-12 19:00 |
Atlas SLV-3 Agena-D | 7112 | LEO (target) | Failure | KH-7 Gambit 4020 | Premature sustainer shutdown due to electrical malfunction. Vehicle impacted the Pacific Ocean. | ||
1965-08-03 19:12 |
Atlas SLV-3 Agena-D | 7111 | LEO | Success | KH-7 Gambit 4021 | |||
1965-09-30 19:20 |
Atlas SLV-3 Agena-D | 7110 | LEO | Success | KH-7 Gambit 4022 | |||
1965-11-08 19:26 |
Atlas SLV-3 Agena-D | 7113 | LEO | Success | KH-7 Gambit 4023 | |||
1966-01-19 20:10 |
Atlas SLV-3 Agena-D | 7114 | LEO | Success | KH-7 Gambit 4024 | |||
1966-02-15 20:30 |
Atlas SLV-3 Agena-D | 7115 | LEO | Success | KH-7 Gambit 4025 | |||
1966-03-18 20:30 |
Atlas SLV-3 Agena-D | 7116 | LEO | Success | KH-7 Gambit 4026 | |||
1966-04-19 19:12 |
Atlas SLV-3 Agena-D | 7117 | LEO | Success | KH-7 Gambit 4027 | |||
1966-05-14 18:30 |
Atlas SLV-3 Agena-D | 7118 | LEO | Success | KH-7 Gambit 4028 | |||
1966-06-03 19:25 |
Atlas SLV-3 Agena-D | 7119 | LEO | Success | KH-7 Gambit 4029 | |||
1966-07-12 17:57 |
Atlas SLV-3 Agena-D | 7120 | LEO | Success | KH-7 Gambit 4030 | |||
1966-08-16 18:30 |
Atlas SLV-3 Agena-D | 7121 | LEO | Success | KH-7 Gambit 4031 | |||
1966-08-19 19:30 |
Atlas SLV-3 Agena-D | 7202 | LEO | Success | Midas 11 | |||
1966-09-16 17:59 |
Atlas SLV-3 Agena-D | 7123 | LEO | Success | KH-7 Gambit 4032 | |||
1966-10-12 19:15 |
Atlas SLV-3 Agena-D | 7122 | LEO | Success | KH-7 Gambit 4033 | |||
1966-11-02 20:23 |
Atlas SLV-3 Agena-D | 7124 | LEO | Success | KH-7 Gambit 4034 | |||
1966-12-05 21:09 |
Atlas SLV-3 Agena-D | 7125 | LEO | Success | KH-7 Gambit 4035 | |||
1967-02-02 20:00 |
Atlas SLV-3 Agena-D | 7126 | LEO | Success | KH-7 Gambit 4036 | |||
1967-05-22 18:30 |
Atlas SLV-3 Agena-D | 7127 | LEO | Success | KH-7 Gambit 4037 | |||
1967-06-04 18:07 |
Atlas SLV-3 Agena-D | 7128 | LEO | Success | KH-7 Gambit 4038 |
Titan IIID / 34D (1971–1988)
editDate/time (GMT) | Launch vehicle | Serial numbers | Trajectory | Result | Payload | Remarks | ||
---|---|---|---|---|---|---|---|---|
1971-06-15 18:41 |
Titan III(23)D | 23D-1 | LEO | Success | OPS-8709 (KH-9) | Maiden flight of Titan IIID | ||
1972-01-20 18:36 |
Titan III(23)D | 23D-2 | LEO | Success | OPS-1737 (KH-9) SSF-B-22 |
|||
1972-07-07 17:46 |
Titan III(23)D | 23D-5 | LEO | Success | OPS-7293 (KH-9) SSF-B-23 |
|||
1972-10-10 18:03 |
Titan III(23)D | 23D-3 | LEO | Success | OPS-8314 (KH-9) SSF-C-3 |
|||
1973-03-09 21:00 |
Titan III(23)D | 23D-6 | LEO | Success | OPS-8410 (KH-9) | |||
1973-06-13 20:24 |
Titan III(23)D | 23D-7 | LEO | Success | OPS-8261 (KH-9) | |||
1973-11-10 20:09 |
Titan III(23)D | 23D-8 | LEO | Success | OPS-6630 (KH-9) SSF-B-24 SSF-C-4 |
|||
1974-04-10 20:20 |
Titan III(23)D | 23D-9 | LEO | Success | OPS-6245 (KH-9) SSF-B-25 IRCB |
|||
1974-10-29 19:30 |
Titan III(23)D | 23D-4 | LEO | Success | OPS-7122 (KH-9) OPS-8452 (S3) SSF-B-26 |
|||
1975-06-08 18:30 |
Titan III(23)D | 23D-10 | LEO | Success | OPS-6381 (KH-9) SSF-C-5 |
|||
1975-12-04 20:38 |
Titan III(23)D | 23D-13 | LEO | Success | OPS-4428 (KH-9) OPS-5547 (S3) |
|||
1976-07-08 18:30 |
Titan III(23)D | 23D-14 | LEO | Success | OPS-4699 (KH-9) OPS-3986 (S3) SSF-D-1 |
|||
1976-12-19 18:19 |
Titan III(23)D | 23D-15 | LEO | Success | OPS-5705 (KH-11) | |||
1977-06-27 18:30 |
Titan III(23)D | 23D-17 | LEO | Success | OPS-4800 (KH-9) | |||
1978-03-16 18:43 |
Titan III(23)D | 23D-20 | LEO | Success | OPS-0460 (KH-9) SSF-D-2 |
|||
1978-06-14 18:28 |
Titan III(23)D | 23D-18 | LEO | Success | OPS-4515 (KH-11) | |||
1979-03-16 18:30 |
Titan III(23)D | 23D-21 | LEO | Success | OPS-3854 (KH-9) SSF-D-3 |
|||
1980-02-07 21:10 |
Titan III(23)D | 23D-19 | LEO | Success | OPS-2581 (KH-11) | |||
1980-06-18 18:29 |
Titan III(23)D | 23D-16 | LEO | Success | OPS-3123 (KH-9) SSF-C-6 |
|||
1981-09-03 18:29 |
Titan III(23)D | 23D-22 | LEO | Success | OPS-3984 (KH-11) | |||
1982-05-11 18:45 |
Titan III(23)D | 23D-24 | LEO | Success | OPS-5642 (KH-9) SSF-D-4 |
|||
1982-11-17 21:22 |
Titan III(23)D | 23D-23 | LEO | Success | OPS-9627 (KH-11) | Final flight of Titan IIID | ||
1983-06-20 18:45 |
Titan 34D | 4D-3 | 34D-5 | LEO | Success | OPS-0721 (KH-9) SSF-C-7 |
||
1984-06-25 18:43 |
Titan 34D | 4D-1 | 34D-4 | LEO | Success | USA-2 (KH-9) USA-3 (SSF-D) |
||
1984-12-04 18:00 |
Titan 34D | 4D-4 | 34D-6 | LEO | Success | USA-6 (KH-11) | ||
1985-08-28 21:20 |
Titan 34D | 4D-6 | 34D-7 | LEO (target) | Failure | KH-11 | First stage propellant leak leading to turbopump failure and RSO destruct | |
1986-04-18 17:45 |
Titan 34D | 4D-2 | 34D-9 | LEO (target) | Failure | KH-9 | SRM burnthrough, exploded 8.5 seconds after launch Last KH-9 Hexagon satellite | |
1987-10-26 21:32 |
Titan 34D | 4D-8 | 34D-15 | LEO | Success | USA-27 (KH-11) | ||
1988-11-06 18:03 |
Titan 34D | 4D-7 | 34D-14 | LEO | Success | USA-33 (KH-11) |
Titan IV (1991–2005)
editDate/time (GMT) | Launch vehicle | Serial numbers | Trajectory | Result | Payload | Remarks | ||
---|---|---|---|---|---|---|---|---|
1991-03-08 12:03 |
Titan IV(403)A | 45F-1 | 4A-5 | K-5 | LEO | Success | USA-69 (Lacrosse) | Maiden flight of Titan 403A |
1991-1108 07:07 |
Titan IV(403)A | 45F-2 | 4A-8 | K-8 | LEO | Success | USA-72 (SLDCOM) USA-74 (NOSS) USA-76 (NOSS) USA-77 (NOSS) |
|
1992-11-28 21:34 |
Titan IV(404)A | 45J-1 | 4A-3 | K-3 | LEO | Success | USA-86 (KH-12) | Maiden flight of Titan 404A |
1993-08-02 19:59 |
Titan IV(403)A | 45F-9 | 4A-11 | K-11 | LEO (target) | Failure | SLDCOM 3 x NOSS |
SRM exploded due to damage caused during maintenance on ground |
1995-12-05 21:18 |
Titan IV(404)A | 45J-3 | 4A-15 | K-15 | LEO | Success | USA-116 (KH-12) | |
1996-05-12 21:32 |
Titan IV(403)A | 45F-11 | 4A-22 | K-22 | LEO | Success | USA-119 (SLDCOM) USA-120 (NOSS) USA-121 (NOSS) USA-122 (NOSS) USA-123 (TiPS) USA-124 (TiPS) |
|
1996-12-20 18:04 |
Titan IV(404)A | 45J-5 | 4A-13 | K-13 | LEO | Success | USA-129 (KH-12) | NRO L-2, final flight of Titan 404A |
1997-10-24 02:32 |
Titan IV(403)A | 45F-3 | 4A-18 | K-18 | LEO | Success | USA-133 (Lacrosse) | Final flight of Titan 403A |
1999-05-22 09:36 |
Titan IV(404)B | 4B-12 | K-12 | LEO | Success | USA-144 (Misty) | Maiden flight of Titan 404B | |
2000-08-17 23:45 |
Titan IV(403)B | 4B-28 | K-25 | LEO | Success | USA-152 (Onyx) | NRO L-11, Maiden flight of Titan 403B | |
2001-10-05 21:21 |
Titan IV(404)B | 4B-34 | K-34 | LEO | Success | USA-161 (KH-12) | NRO L-14, Maiden flight of Titan 404B | |
2005-10-19 18:05 |
Titan IV(404)B | 4B-26 | K-35 | LEO | Success | USA-186 (KH-12) | NRO L-20, Final flight of Titan IV |
Falcon 9 (since 2013)
editDate/time (GMT) | Version, booster[a] |
Trajectory | Payload | Result | Remarks |
---|---|---|---|---|---|
2013-09-29 16:00 |
F9 v1.1 B1003 |
Polar orbit | CASSIOPE[15][16] | Success | First Falcon 9 v1.1 flight and first commercial mission. After payload separation the upper stage failed at a re-ignition test. |
2016-01-17 18:42[17] |
F9 v1.1 B1017 |
SSO | Jason-3[18] | Success | First launch of NASA and NOAA joint science mission under the NLS II launch contract, last flight of Falcon 9 v1.1 |
2017-01-14 17:54 |
F9 FT B1029.1 |
Polar orbit | Iridium-1 | Success | First batch of ten satellites for the Iridium NEXT constellation. |
2017-06-25 20:25 |
F9 FT B1036.1 |
Polar orbit | Iridium-2 | Success | Second batch of ten Iridium NEXT satellites |
2017-08-24 18:50 |
F9 FT B1038.1 |
SSO | FORMOSAT-5[19] | Success | Formosat-5 was originally scheduled to launch on a Falcon 1e from Omelek Island in 2013. |
2017-10-09 12:37 |
F9 B4 B1041.1 |
Polar orbit | Iridium-3 | Success | Third batch of ten Iridium NEXT satellites |
2017-12-23 01:27 |
F9 FT B1036.2 |
Polar orbit | Iridium-4 | Success | First west-coast return-to-launch-site landing planned[20] but later cancelled.[21] The first-stage booster was expended after a controlled ocean splashdown.[22] |
2018-02-22 14:17[23] |
F9 FT B1038.2 |
SSO | Paz[24] + Starlink × 2 (Tintin A & B) | Success | First launch with new fairing, designed to be "caught" by a recovery vessel; the fairing missed the ship but was ultimately recovered anyway. |
2018-03-30 14:13 |
F9 B4 B1041.2 |
Polar orbit | Iridium-5 | Success | Fifth batch of ten Iridium NEXT satellites. The first stage was expended after a simulated ocean landing.[25] |
2018-05-22 19:47 |
F9 B4 B1043.2 |
Polar orbit | Iridium-6 & Grace-FO | Success | Sixth batch of 5 Iridium NEXT satellites. The two GRACE-FO satellites were a rideshare on this flight. The first stage was expended and flew without landing legs, but with aluminum grid fins. |
2018-07-25 11:39 |
F9 B5 B1048.1 |
Polar orbit | Iridium-7 | Success | Seventh batch of ten Iridium NEXT satellites. First Falcon 9 Block 5 to launch from Vandenberg AFB. |
2018-10-08 02:21 |
F9 B5 B1048.2 |
SSO | SAOCOM 1A | Success | First Block 5 reuse on the west coast. First land landing on SpaceX's west coast landing pad, Landing Zone 4. First Block 5 RTLS landing. |
2018-12-03 18:34 |
F9 B5 B1046.3 |
SSO | Spaceflight SSO-A | Success | Rideshare mission during which 64 small satellites were successfully deployed. First time a booster (B1046) was used for a third flight. |
2019-01-11 15:31 |
F9 B5 B1049.2 |
Polar orbit | Iridium-8 | Success | Eighth and the last Iridium NEXT mission with ten satellites. |
2019-06-12 14:17 |
F9 B5 B1051.2 |
SSO | RADARSAT Constellation | Success | Set of three Earth observation satellites by the Canadian Space Agency. |
2020-11-21 17:17 |
F9 B5 B1063.1 | LEO | Sentinel-6 Michael Freilich | Success | First of two Sentinel 6 satellites to measure sea-level change. Launched to a 1336 km at 66° inclination orbit. |
2021-09-14 03:55 |
F9 B5 B1049.10 |
LEO | Starlink × 51 (Group 2-1) | Success | First Starlink mission to launch from Vandenberg SLC-4, to a 70-degree orbital inclination. |
2021-11-24 01:21 |
F9 B5 B1063.3 |
Heliocentric | DART | Success | First mission to demonstrate asteroid reduction capability. Originally planned for 22 July 2021, but was pushed back to 24 November 2021.[26] |
2021-12-18 12:41 |
F9 B5 B1051.11 |
LEO | Starlink × 52 (Group 4-4) | Success | First West coast and third overall 53.2-degree inclination Starlink launch. First time a Falcon 9 first stage booster flew for an eleventh time. |
2022-02-02 20:27 |
F9 B5 B1071.1 |
SSO | NROL-87 | Success | Classified US military satellite |
2022-02-25 17:12 |
F9 B5 B1063.4 |
LEO | Starlink × 50 (Group 4–11) | Success | |
2022-04-17 13:13 |
F9 B5 B1071.2 |
SSO | NROL-85 | Success | Two classified US military satellites |
2022-05-13 22:07 |
F9 B5 B1063.5 |
LEO | Starlink × 53 (Group 4-13) | Success | |
2022-06-18 14:19 |
F9 B5 B1071.3 |
SSO | SARah 1 | Success | |
2022-07-11 01:39 |
F9 B5 B1063.6 |
SSO | Starlink × 46 (Group 3-1) | Success | First dedicated mission deploying Starlink satellites to Sun-synchronous orbit. |
2022-07-22 17:39 |
F9 B5 B1071.4 |
SSO | Starlink × 46 (Group 3-2) | Success | |
2022-08-12 21:40 |
F9 B5 B1061.10 |
SSO | Starlink × 46 (Group 3-3) | Success | |
2022-08-31 05:40 |
F9 B5 B1063.7 |
SSO | Starlink × 46 (Group 3-4) | Success | |
2022-10-05 23:10 | F9 B5 B1071.5 |
LEO | Starlink × 52 (Group 4-29) | Success | |
2022-10-28 01:14 | F9 B5 B1063.8 |
LEO | Starlink × 53 (Group 4-31) | Success | |
2022-12-16 11:46 | F9 B5 B1071.6 |
Polar orbit | SWOT | Success | Joint mission of NASA and CNES |
2022-12-30 07:38 | F9 B5 B1061.11 |
LEO | EROS-C3 | Success | |
2023-01-19 15:43 | F9 B5 B1075.1 |
LEO | Starlink × 51 (Group 2-4) | Success | |
2023-01-31 16:15 | F9 B5 B1071.7 |
LEO | Starlink × 49 (Group 2-6) & ION SCV-009 | Success | The launch carried also the ION SCV-009 cubesat deployer with a mass simulator and some experiments onboard. |
2023-02-17 19:12 | F9 B5 B1063.9 |
LEO | Starlink × 51 (Group 2-5) | Success | |
2023-03-03 18:38 | F9 B5 B1061.12 |
LEO | Starlink × 51 (Group 2-7) | Success | |
2023-03-17 19:26 | F9 B5 B1071.8 |
LEO | Starlink × 52 (Group 2-8) | Success | |
2023-04-02 14:29 | F9 B5 B1075.2 |
Polar Orbit | SDA Tranche 0A | Success | |
2023-04-15 06:48 | F9 B5 B1063.10 |
SSO | Transporter 7 | Success | |
2023-04-27 13:40 | F9 B5 B1061.13 |
SSO | Starlink × 46 (Group 3-5) | Success | |
2023-05-10 20:09 | F9 B5 B1075.3 |
LEO | Starlink × 51 (Group 2-9) | Success | |
2023-05-20 13:16 | F9 B5 B1063.11 |
Polar Orbit | Iridium-9 & OneWeb #19 | Success | |
2023-05-31 06:02 | F9 B5 B1061.14 |
LEO | Starlink × 52 (Group 2-10) | Success | |
2023-06-12 21:35 | F9 B5 B1071.9 |
SSO | Transporter 8 | Success | |
2023-06-22 07:19 | F9 B5 B1075.4 |
LEO | Starlink × 47 (Group 5-7) | Success | |
2023-07-07 19:29 | F9 B5 B1063.12 |
LEO | Starlink × 48 (Group 5-13) | Success | |
2023-07-20 04:09 | F9 B5 B1071.10 |
LEO | Starlink × 15 (Group 6-15) | Success | First launch of larger Starlink v2 mini satellites from Vandenberg. |
2023-08-08 03:57 | F9 B5 B1075.5 |
LEO | Starlink × 15 (Group 6-20) | Success | |
2023-08-22 09:37 | F9 B5 B1061.15 |
LEO | Starlink × 21 (Group 7-1) | Success | |
2023-09-02 14:25 | F9 B5 B1063.13 |
Polar orbit | SDA Tranche 0B | Success | |
2023-09-12 06:57 | F9 B5 B1071.11 |
LEO | Starlink × 21 (Group 7-2) | Success | |
2023-09-25 08:48 | F9 B5 B1075.6 |
LEO | Starlink × 21 (Group 7-3) | Success | |
2023-10-09 07:23 | F9 B5 B1063.14 |
LEO | Starlink × 21 (Group 7-4) | Success | |
2023-10-21 08:23 | F9 B5 B1061.16 |
LEO | Starlink × 21 (Group 7-5) | Success | |
2023-10-29 09:00 | F9 B5 B1075.7 |
LEO | Starlink × 22 (Group 7-6) | Success | |
2023-11-11 18:49 | F9 B5 B1071.12 |
SSO | Transporter 9 | Success | |
2023-11-20 10:30 | F9 B5 B1063.15 |
LEO | Starlink × 22 (Group 7-7) | Success | |
2023-12-01 18:19 | F9 B5 B1061.17 |
SSO | 425 Project Flight 1 | Success | |
2023-12-08 08:03 | F9 B5 B1071.13 |
LEO | Starlink × 22 (Group 7-8) | Success | Fastest turnaround of this launch pad. |
2023-12-24 13:11 | F9 B5 B1075.8 |
SSO | SARah 2 & 3[27] | Success | |
2024-01-03 03:44 | F9 B5 B1082.1 |
LEO | Starlink × 21 (Group 7-9) | Success | |
2024-01-14 08:59 | F9 B5 B1061.18 |
LEO | Starlink × 22 (Group 7-10) | Success | |
2024-01-24 00:35 | F9 B5 B1063.16 |
LEO | Starlink × 22 (Group 7-11) | Success | |
2024-01-29 05:57 | F9 B5 B1075.9 |
LEO | Starlink × 22 (Group 7-12) | Success | This landing marked the fastest turnaround of a droneship at just over 5 days. The launch also marked the fastest turnaround time from SLC-4E at 5 days, 5 hours, 22 minutes, and 20 seconds, previously being at 6.5 days. |
2024-02-10 00:34 | F9 B5 B1071.14 |
LEO | Starlink × 22 (Group 7-13) | Success | |
2024-02-15 21:34 | F9 B5 B1082.2 |
LEO | Starlink × 22 (Group 7-14) | Success | |
2024-02-23 04:11 | F9 B5 B1061.19 |
LEO | Starlink × 22 (Group 7-15) | Success | |
2024-03-04 22:05 | F9 B5 B1081.5 |
SSO | Transporter 10 | Success | |
2024-03-11 04:09 | F9 B5 B1063.17 |
LEO | Starlink × 23 (Group 7-17) | Success | |
2024-03-19 02:28 | F9 B5 B1075.10 |
LEO | Starlink × 20 (Group 7-16) & Starshield × 2[28] | Success | Carried two Starshield as rideshare.[29] |
2024-04-02 02:30 | F9 B5 B1071.15 |
LEO | Starlink × 22 (Group 7-18) | Success | |
2024-04-07 02:25 | F9 B5 B1081.6 |
LEO | Starlink × 21 (Group 8-1) | Success | |
2024-04-11 14:25 | F9 B5 B1082.3 |
SSO | USSF-62 (WSF-M 1) | Success | |
2024-05-02 18:36 | F9 B5 B1061.20 |
SSO | WorldView Legion 1 & 2 (2 Sats) | Success | |
2024-05-10 04:30 | F9 B5 B1082.4 |
LEO | Starlink × 20 (Group 8-2) | Success | |
2024-05-14 18:39 | F9 B5 B1063.18 |
LEO | Starlink × 20 (Group 8-7) | Success | |
2024-05-22 08:00 | F9 B5 B1071.16 |
LEO | NROL-146 | Success | |
2024-05-28 22:20 | F9 B5 B1081.7 |
SSO | EarthCARE | Success | |
2024-06-08 12:58 | F9 B5 B1061.21 |
LEO | Starlink × 20 (Group 8-8) | Success | |
2024-06-19 03:40 | F9 B5 B1082.5 |
LEO | Starlink × 20 (Group 9-1) | Success | |
2024-06-24 03:47 | F9 B5 B1075.11 |
LEO | Starlink × 20 (Group 9-2) | Success | |
2024-06-29 03:14 | F9 B5 B1081.8 |
LEO | NROL-186 | Success | |
2024-07-12 02:35 | F9 B5 B1063.19 |
LEO | Starlink × 20 (Group 9-3) | Failure | |
2024-07-28 09:22 | F9 B5 B1071.17 |
LEO | Starlink × 21 (Group 9-4) | Success | |
2024-08-04 07:24 | F9 B5 B1082.6 |
LEO | Starlink × 23 (Group 11-1) | Success | |
2024-08-12 02:02 | F9 B5 B1061.22 |
Molniya | ASBM 1 & ASBM 2 | Success | Two identical satellites to be operated by NOSA, in order to provide communication coverage to the far north areas of Norway, which is presently not served by geosynchronous satellites. |
2024-08-16 18:56 | F9 B5 B1075.12 |
SSO | Transporter 11 | Success | |
2024-08-31 08:48 | F9 B5 B1081.9 |
LEO | Starlink × 21 (Group 9-5) | Success | |
2024-09-06 03:20 | F9 B5 B1063.20 |
LEO | NROL-113 | Success | |
2024-09-13 01:45 | F9 B5 B1071.18 |
LEO | Starlink × 21 (Group 9-6) | Success | |
2024-09-20 13:50 | F9 B5 B1075.13 |
LEO | Starlink × 20 (Group 9-17) | Success | |
2024-09-25 04:01 | F9 B5 B1081.10 |
LEO | Starlink × 20 (Group 9-8) | Success | |
2024-10-15 08:21 | F9 B5 B1071.19 |
LEO | Starlink × 20 (Group 9-7) | Success | |
2024-10-20 05:13 | F9 B5 B1082.7 |
Polar LEO | OneWeb #20 | Success | |
2024-10-24 17:13 | F9 B5 B1063.21 |
LEO | NROL-167 | Success | |
2024-10-30 12:07 | F9 B5 B1075.14 |
LEO | Starlink × 20 (Group 9-9) | Success | |
2024-11-09 06:14 | F9 B5 B1081.11 |
LEO | Starlink × 20 (Group 9-10) | Success | |
2024-11-14 05:23 | F9 B5 B1082.8 |
LEO | Starlink × 20 (Group 9-11) | Success | |
2024-11-18 05:53 | F9 B5 B1071.20 |
LEO | Starlink × 20 (Group 9-12) | Success | |
2024-11-24 05:25 | F9 B5 B1075.15 |
LEO | Starlink × 20 (Group 9-13) | Success |
Upcoming launches
editPlanned date (UTC) | Launch vehicle | Trajectory | Payload | Remarks |
---|---|---|---|---|
November 2024 | F9 B5 | LEO | Starlink × ~23 (Group 11-2) | |
Net 2024 | F9 B5 | SSO | NAOS (LUXEOSys) | |
April 2025[30] | F9 B5 | Geocentric | SPHEREx & PUNCH | |
November 2025 | F9 B5 | SSO | Sentinel-6B |
SLC-4W
edit
SLC-4W started operations in 1963 as Space Launch Complex 4W, and continued as an operational launch site through 2003. In 2015, SpaceX started conversion of the launch site into Landing Zone LZ-4. Landing operations commenced in 2018 at LZ-4.
SLC-4W launch history
editStatistics
editBy rocket type
editAtlas-Agena
editThe first launch to use what is now SLC-4 occurred on 12 July 1963, when an Atlas LV-3 Agena-D launched the first KH-7 Gambit reconnaissance satellite, from PALC-2-3. Twelve Atlas-Agenas launches were conducted from PALC-2-3, with the last occurring on 12 March 1965.
Titan IIIB
editFollowing this, it was rebuilt as SLC-4W, a Titan launch complex. The first Titan launch from SLC-4W was a Titan IIIB, on 29 July 1966. All 68 Titan IIIB launches occurred from SLC-4W, with the last on 12 February 1987.
Titan 23G
editAfter the retirement of the Titan IIIB, it became a Titan 23G launch site, and twelve Titan II launches, using the 23G orbital configuration, were conducted between 5 September 1988 and 18 October 2003. Following the retirement of the Titan 23G, SLC-4W was deactivated. 93 rockets were launched from SLC-4W.
SLC-4W was the site of the launch of Clementine, the only spacecraft to be launched from Vandenberg to the Moon, which was launched by a Titan 23G on 25 January 1994.
Launch timeline 1963–2003
editDate/time (GMT) | Launch vehicle | Serial numbers | Trajectory | Result | Payload | Remarks | ||
---|---|---|---|---|---|---|---|---|
1963-07-12 20:46 |
Atlas LV-3 Agena-D | 201D | LEO | Success | KH-7 Gambit 4001 | |||
1963-09-06 19:30 |
Atlas LV-3 Agena-D | 212D | LEO | Success | KH-7 Gambit 4002 | |||
1963-10-25 18:59 |
Atlas LV-3 Agena-D | 224D | LEO | Success | KH-7 Gambit 4003 | |||
1963-12-18 21:45 |
Atlas LV-3 Agena-D | 227D | LEO | Success | KH-7 Gambit 4004 | |||
1964-02-25 18:59 |
Atlas LV-3 Agena-D | 285D | LEO | Success | KH-7 Gambit 4005 | |||
1964-03-11 20:14 |
Atlas LV-3 Agena-D | 296D | LEO | Success | KH-7 Gambit 4006 | |||
1964-04-23 16:19 |
Atlas LV-3 Agena-D | 351D | LEO | Success | KH-7 Gambit 4007 | |||
1964-05-19 19:21 |
Atlas LV-3 Agena-D | 350D | LEO | Success | KH-7 Gambit 4008 | |||
1964-07-06 18:51 |
Atlas LV-3 Agena-D | 352D | LEO | Success | KH-7 Gambit 4009 | |||
1964-08-14 22:00 |
Atlas LV-3 Agena-D | 7101 | LEO | Success | KH-7 Gambit 4010 | |||
1964-09-23 20:06 |
Atlas LV-3 Agena-D | 7102 | LEO | Success | KH-7 Gambit 4011 | |||
1964-10-23 18:30 |
Atlas LV-3 Agena-D | 353D | LEO | Success | KH-7 Gambit 4013 | |||
1965-01-23 20:09 |
Atlas SLV-3 Agena-D | 7106 | LEO | Success | KH-7 Gambit 4015 | |||
1965-03-12 19:25 |
Atlas SLV-3 Agena-D | 7104 | LEO | Success | KH-7 Gambit 4016 | |||
29 July 1966 18:43 |
Titan IIIB | 3B-1 | 4751 | LEO | Success | OPS-3014 (KH-8) | Maiden flight of Titan IIIB | |
28 September 1966 19:12 |
Titan IIIB | 3B-2 | LEO | Success | OPS-4096 (KH-8) | |||
14 December 1966 18:14 |
Titan IIIB | 3B-3 | LEO | Success | OPS-8968 (KH-8) | |||
24 February 1967 19:55 |
Titan IIIB | 3B-4 | LEO | Success | OPS-4204 (KH-8) | |||
26 April 1967 18:00 |
Titan IIIB | 3B-5 | LEO (target) | Failure | OPS-4243 (KH-8) | Second stage lost thrust due to probable fuel line obstruction. Vehicle impacted the Pacific Ocean 600 miles downrange. | ||
20 June 196716:19 |
Titan IIIB | 3B-8 | LEO | Success | OPS-4282 (KH-8) | |||
16 August 1967 17:02 |
Titan IIIB | 3B-9 | LEO | Success | OPS-4886 (KH-8) | |||
19 September 1967 18:28 |
Titan IIIB | 3B-10 | LEO | Success | OPS-4941 (KH-8) | |||
25 October 1967 19:15 |
Titan IIIB | 3B-11 | LEO | Success | OPS-4995 (KH-8) | |||
5 December 1967 18:45 |
Titan IIIB | 3B-12 | LEO | Success | OPS-5000 (KH-8) | |||
18 January 1968 19:04 |
Titan IIIB | 3B-13 | LEO | Success | OPS-5028 (KH-8) | |||
13 March 1968 19:55 |
Titan IIIB | 3B-14 | LEO | Success | OPS-5057 (KH-8) | |||
7 April 1968 17:00 |
Titan IIIB | 3B-15 | LEO | Success | OPS-5105 (KH-8) | |||
5 June 1968 17:31 |
Titan IIIB | 3B-16 | LEO | Success | OPS-5138 (KH-8) | |||
6 August 1968 16:33 |
Titan IIIB | 3B-17 | LEO | Success | OPS-5187 (KH-8) | |||
10 September 1968 18:30 |
Titan IIIB | 3B-18 | LEO | Success | OPS-5247 (KH-8) | |||
6 November 1968 19:10 |
Titan IIIB | 3B-19 | LEO | Success | OPS-5296 (KH-8) | |||
4 December 1968 19:23 |
Titan IIIB | 3B-20 | LEO | Success | OPS-6518 (KH-8) | |||
22 January 1969 19:10 |
Titan IIIB | 3B-6 | LEO | Success | OPS-7585 (KH-8) | |||
4 March 1969 19:30 |
Titan IIIB | 3B-7 | LEO | Success | OPS-4248 (KH-8) | |||
15 April 1969 17:30 |
Titan IIIB | 3B-21 | LEO | Success | OPS-5310 (KH-8) | |||
3 June 1969 16:49 |
Titan IIIB | 3B-22 | LEO | Success | OPS-1077 (KH-8) | |||
23 August 1969 16:00 |
Titan III(23)B | 23B-1 | 3B-23 | LEO | Success | OPS-7807 (KH-8A) | Maiden flight of Titan 23B | |
14 October 1969 18:10 |
Titan III(23)B | 23B-2 | 3B-24 | LEO | Success | OPS-8455 (KH-8A) | ||
14 January 1970 18:43 |
Titan III(23)B | 23B-3 | 3B-24 | LEO | Success | OPS-6531 (KH-8A) | ||
15 April 1970 15:52 |
Titan III(23)B | 23B-4 | 3B-26 | LEO | Success | OPS-2863 (KH-8A) | ||
25 June 1970 14:50 |
Titan III(23)B | 23B-5 | 3B-27 | LEO | Success | OPS-6820 (KH-8A) | ||
18 August 1970 14:45 |
Titan III(23)B | 23B-6 | 3B-28 | LEO | Success | OPS-7874 (KH-8A) | ||
23 October 1970 17:40 |
Titan III(23)B | 23B-7 | 3B-29 | LEO | Success | OPS-7568 (KH-8A) | ||
21 January 1971 18:28 |
Titan III(23)B | 23B-8 | 3B-30 | LEO | Success | OPS-7776 (KH-8A) | ||
21 March 1971 03:45 |
Titan III(33)B | 33B-1 | 3B-36 | Molniya | Success | OPS-4788 (Jumpseat) | Maiden flight of Titan 33B | |
22 April 1971 15:30 |
Titan III(23)B | 23B-9 | 3B-31 | LEO | Success | OPS-7899 (KH-8A) | Final flight of Titan 23B | |
12 August 1971 15:30 |
Titan III(24)B | 24B-1 | 3B-32 | LEO | Success | OPS-8607 (KH-8A) | Maiden flight of Titan 24B | |
23 October 1971 17:16 |
Titan III(24)B | 24B-2 | 3B-33 | LEO | Success | OPS-7616 (KH-8A) | ||
16 February 1972 09:59 |
Titan III(33)B | 33B-2 | 3B-37 | Molniya (target) | Failure | OPS-1844 (Jumpseat) | Failed to reach orbit | |
17 March 1972 17:00 |
Titan III(24)B | 24B-3 | 3B-34 | LEO | Success | OPS-1678 (KH-8A) | ||
20 May 1972 15:30 |
Titan III(24)B | 24B-4 | 3B-35 | LEO (target) | Failure | OPS-6574 (KH-8A) | Agena pressurization failure | |
1 September 1972 17:44 |
Titan III(24)B | 24B-5 | 3B-39 | LEO | Success | OPS-8888 (KH-8A) | ||
21 December 1972 17:45 |
Titan III(24)B | 24B-6 | 3B-40 | LEO | Success | OPS-3978 (KH-8A) | ||
16 May 1973 16:40 |
Titan III(24)B | 24B-7 | 3B-41 | LEO | Success | OPS-2093 (KH-8A) | ||
26 June 1973 17:00 |
Titan III(24)B | 24B-9 | 3B-43 | LEO (target) | Failure | OPS-4018 (KH-8A) | First stage fuel tank rupture T+11 seconds. | |
21 August 1973 16:07 |
Titan III(33)B | 33B-3 | 3B-38 | Molniya | Success | OPS-7724 (Jumpseat) | Final flight of Titan 33B | |
27 September 1973 17:15 |
Titan III(24)B | 24B-8 | 3B-42 | LEO | Success | OPS-6275 (KH-8A) | ||
13 February 1974 18:00 |
Titan III(24)B | 24B-10 | 3B-44 | LEO | Success | OPS-6889 (KH-8A) | ||
6 June 1974 16:30 |
Titan III(24)B | 24B-11 | 3B-45 | LEO | Success | OPS-1776 (KH-8A) | ||
14 August 1974 15:35 |
Titan III(24)B | 24B-12 | 3B-46 | LEO | Success | OPS-3004 (KH-8A) | ||
10 March 1975 04:41 |
Titan III(34)B | 34B-1 | 3B-50 | Molniya | Success | OPS-2439 (Jumpseat) | Maiden flight of Titan 34B | |
18 April 1975 16:48 |
Titan III(24)B | 24B-14 | 3B-48 | LEO | Success | OPS-4883 (KH-8A) | ||
9 October 1975 19:15 |
Titan III(24)B | 24B-13 | 3B-47 | LEO | Success | OPS-5499 (KH-8A) | ||
22 March 1976 18:14 |
Titan III(24)B | 24B-18 | 3B-52 | LEO | Success | OPS-7600 (KH-8A) | ||
2 June 1976 20:56 |
Titan III(34)B | 34B-5 | 3B-55 | Molniya | Success | OPS-7837 (SDS) | ||
6 August 1976 22:21 |
Titan III(34)B | 34B-6 | 3B-56 | Molniya | Success | OPS-7940 (SDS) | ||
15 September 1976 18:50 |
Titan III(24)B | 24B-17 | 3B-51 | LEO | Success | OPS-8533 (KH-8A) | ||
13 March 1977 18:41 |
Titan III(24)B | 24B-19 | 3B-54 | LEO | Success | OPS-4915 (KH-8A) | ||
23 September 1977 18:34 |
Titan III(24)B | 24B-23 | 3B-58 | LEO | Success | OPS-7471 (KH-8A) | ||
25 February 1978 05:00 |
Titan III(34)B | 34B-2 | 3B-49 | Molniya | Success | OPS-6031 (Jumpseat) | ||
5 August 1978 05:00 |
Titan III(34)B | 34B-7 | 3B-57 | Molniya | Success | OPS-7310 (SDS) | ||
28 May 1979 18:14 |
Titan III(24)B | 24B-25 | 3B-61 | LEO | Success | OPS-7164 (KH-8A) | ||
13 December 1980 16:04 |
Titan III(34)B | 34B-3 | 3B-53 | Molniya | Success | OPS-5805 (SDS) | ||
28 February 1981 19:15 |
Titan III(24)B | 24B-24 | 3B-59 | LEO | Success | OPS-1166 (KH-8A) | ||
24 April 1981 21:32 |
Titan III(34)B | 34B-8 | 3B-60 | Molniya | Partial failure | OPS-7225 (Jumpseat) | Spacecraft failed to separate | |
21 January 1982 19:36 |
Titan III(24)B | 24B-26 | 3B-62 | LEO | Success | OPS-2849 (KH-8A HB) | ||
15 April 1983 18:45 |
Titan III(24)B | 24B-27 | 3B-63 | LEO | Success | OPS-2925 (KH-8A) | ||
31 July 1983 15:41 |
Titan III(34)B | 34B-9 | 3B-65 | Molniya | Success | OPS-7304 (Jumpseat) | ||
17 April 1984 18:45 |
Titan III(24)B | 24B-28 | 3B-67 | LEO | Success | OPS-8424 (KH-8A) | Final flight of Titan 24B | |
28 August 1984 18:03 |
Titan III(34)B | 34B-4 | 3B-64 | Molniya | Success | USA-4 (SDS) | ||
8 February 1985 06:10 |
Titan III(34)B | 34B-10 | 3B-69 | Molniya | Success | USA-9 (SDS) | ||
12 February 1987 06:40 |
Titan III(34)B | 34B-51 | 3B-66 | Molniya | Success | USA-21 (SDS) | Final flight of Titan IIIB; Final use of Agena upper stage in any vehicle | |
5 September 1988 09:25 |
Titan II(23)G | 23G-1 | B-56 | B-98 | LEO | Success | USA-32 (Bernie) | Maiden flight of Titan 23G |
6 September 1989 01:49 |
Titan II(23)G | 23G-2 | B-99 | B-75 | LEO | Success | USA-45 (Bernie) | |
25 April 1992 08:53 |
Titan II(23)G | 23G-3 | B-102 | LEO | Success | USA-81 (Bernie) | ||
5 October 1993 17:56 |
Titan II(23)G/Star-37XFP | 23G-5 | B-65 | LEO (target) | Failure | Landsat 6 | Star-37 failed to ignite | |
25 January 1994 16:34 |
Titan II(23)G | 23G-11 | B-67 | B-89 | LEO[31] | Success | Clementine DSPSE-ISA |
|
4 April 1997 16:47 |
Titan II(23)G/Star-37S | 23G-6 | B-106 | LEO | Success | USA-131 (DMSP) | ||
13 May 1998 15:52 |
Titan II(23)G/Star-37XFP | 23G-12 | B-72 | B-80 | LEO | Success | NOAA-15 | |
20 June 1999 02:15 |
Titan II(23)G | 23G-7 | B-75 | LEO | Success | QuickSCAT | ||
12 December 1999 17:38 |
Titan II(23)G/Star-37XFP | 23G-8 | B-44 | B-94 | LEO | Success | USA-147 (DMSP) | |
21 September 2000 10:22 |
Titan II(23)G/Star-37XFP | 23G-13 | B-39 | B-96 | LEO | Success | NOAA-16 | |
24 June 2002 18:23 |
Titan II(23)G/Star-37XFP | 23G-14 | B-92 | B-71 | LEO | Success | NOAA-17 | |
6 January 2003 14:19 |
Titan II(23)G | 23G-4 | B-72 | LEO | Success | Coriolis | ||
18 October 2003 16:17 |
Titan II(23)G/Star-37XFP | 23G-9 | B-107 | LEO | Success | USA-172 (DMSP) | Final flight of Titan II |
LZ-4
edit
Development history
editSpaceX signed a five-year lease of Launch Complex 4W in February 2015, in order to use the area to land reusable launch vehicles at the pad. The location is being used for vertical landing of Return-To-Launch-Site (RTLS) first-stage boosters of the Falcon 9 rockets that are launched from the adjacent SLC-4E launch pad.[32][33] This novel use of SLC-4W had initially surfaced in July 2014 when NASASpaceFlight.com published that SpaceX was considering leasing SLC-4W for use as a RTLS vertical-landing facility for reusable first-stage boosters.[34]
Principal structures on the pad were demolished in September 2014 as construction of the landing pad began and was completed sometime around 2017.[35]
Landing statistics
editLanding outcomes (Falcon 9)
edit- Falcon 9 Success
- Falcon 9 Failure
Detailed landing history
editAfter performing return-to-launch-site (RTLS) landings at its two Cape Canaveral Space Force Station landing pads, Landing Zones 1 and 2,[33][36] the company initially planned to attempt the first West Coast booster landing at Vandenberg AFB with the fourth Iridium NEXT satellite launch in December 2017, but ultimately opted for an expendable mission.[20][37]
In July 2018, SpaceX filed an FCC permit to communicate with a Falcon 9 first stage post-landing at SLC-4W, hinting at a potential RTLS landing, for the SAOCOM 1A mission.[38] This launch was later rescheduled to October 8, 2018.[32] Publicly announced through FCC permits and sonic boom warnings, SpaceX renamed SLC-4W as Landing Zone 4 ahead of the first landing attempt. The landing of a Falcon 9 first stage booster successfully occurred at Landing Zone 4 in October 2018, following the launch of the Argentinian SAOCOM 1A satellite.[32]
Date/time (UTC) | Version, booster[a] |
Launch site | Trajectory | Payload | Result |
---|---|---|---|---|---|
8 October 2018 | F9 B5 B1048.2 |
SLC-4E | SSO | SAOCOM 1A | Success |
12 June 2019 | F9 B5 B1051.2 |
SLC-4E | SSO | RADARSAT Constellation | Success |
21 November 2020 | F9 B5 B1063.1 |
SLC-4E | SSO | Sentinel-6 Michael Freilich | Success |
2 February 2022 | F9 B5 B1071.1 |
SLC-4E | SSO | NROL-87 | Success |
17 April 2022 | F9 B5 B1071.2 |
SLC-4E | LEO | NROL-85 | Success |
18 June 2022 | F9 B5 B1071.3 |
SLC-4E | SSO | SARah 1 | Success |
16 December 2022 | F9 B5 B1071.6 |
SLC-4E | Polar | SWOT | Success |
30 December 2022 | F9 B5 B1063.11 |
SLC-4E | LEO | EROS-C3 | Success |
2 April 2023 | F9 B5 B1075.2 |
SLC-4E | Polar | SDA Tranche 0A | Success |
15 April 2023 | F9 B5 B1063.10 |
SLC-4E | SSO | Transporter 7 | Success |
12 June 2023 | F9 B5 B1071.9 |
SLC-4E | SSO | Transporter 8 | Success |
2 September 2023 | F9 B5 B1063.13 |
SLC-4E | Polar | SDA Tranche 0B | Success |
11 November 2023 | F9 B5 B1071.12 |
SLC-4E | SSO | Transporter 9 | Success |
1 December 2023 | F9 B5 B1061.17 |
SLC-4E | SSO | 425 Project Flight 1 | Success |
24 December 2023 | F9 B5 B1075.8 |
SLC-4E | SSO | SARah 2 & 3 | Success |
4 March 2024 | F9 B5 B1081.5 |
SLC-4E | SSO | Transporter 10 | Success |
11 April 2024 | F9 B5 B1082.3 |
SLC-4E | SSO | USSF-62 (WSF-M 1) | Success |
2 May 2024 | F9 B5 B1061.20 |
SLC-4E | SSO | WorldView Legion 1 & 2 | Success |
28 May 2024 | F9 B5 B1081.7 |
SLC-4E | SSO | EarthCARE | Success |
16 August 2024 | F9 B5 B1075.12 |
SLC-4E | SSO | Transporter 11 | Success |
20 October 2024 | F9 B5 B1082.7 |
SLC-4E | Polar | OneWeb #20 | Success |
Notes
editReferences
edit- ^ "Falcon User's Guide" (PDF). SpaceX. September 2021. p. 11.
- ^ "NROL-85 Launch". National Reconnaissance Office. Retrieved 2 April 2023.
- ^ a b c Scully, Janene (5 February 2011). "Report: Falcon plan OK for environment". Santa Maria Times. Retrieved 7 February 2011.
- ^ a b "SpaceX". SpaceX. 15 August 2011. Archived from the original on 17 August 2011. Retrieved 15 August 2011.
- ^ Ben Evans. "SpaceX Launch Success Trials New Rocket, New Engine, New-Look Falcon 9". americaspace.com. Retrieved 2 April 2023.
- ^ Wade, Mark. "Titan". Encyclopedia Astronautica. Archived from the original on 5 August 2008. Retrieved 25 January 2009.
- ^ "Titan 3D". Gunther's Space Page. Retrieved 17 October 2013.
- ^ "Space Launch Complex 4 East". Cape Canaveral Space Force Museum. Retrieved 23 December 2023.
- ^ "The Space Review: Death of a monster". thespacereview.com. Retrieved 3 September 2015.
- ^ Broad, William J. (19 April 1986). "The New York Times: TITAN ROCKET EXPLODES OVER CALIFORNIA AIR BASE". The New York Times. Retrieved 21 September 2019.
- ^ "SpaceX Primed for Final Falcon 9 v1.1 Launch on Sunday". AmericaSpace. Retrieved 23 December 2023.
- ^ "Vandenberg: Space Launch Complex PALC2-4 (4E)". collectSPACE. Retrieved 23 December 2023.
- ^ "SpaceX Gears Up for Launches at Vandenberg Air Force Base". Space News. 12 November 2012. Retrieved 9 February 2013.
- ^ "First look/SpaceX Launch Complex/Vandenberg AFB". dailybreeze.com. 11 February 2013. Retrieved 1 April 2013.
- ^ Lindsey, Clark (4 January 2013). "NewSpace flights in 2013". NewSpace Watch. Archived from the original on 26 May 2013. Retrieved 3 January 2013.
- ^ "Dragon Mission Report | Q&A with SpaceX founder and chief designer Elon Musk". Spaceflight Now. 18 May 2012. Retrieved 25 May 2012.
- ^ "Launch Schedule | Spaceflight Now". spaceflightnow.com. Retrieved 23 January 2016.
- ^ "SpaceX: Jason-3 Mission" (PDF). spacex.com. SpaceX. Retrieved 23 January 2016.
- ^ "Formosat5 program description". NSPO. Retrieved 10 May 2014.
- ^ a b Gebhardt, Chris (16 October 2017). "SpaceX adds mystery "Zuma" mission, Iridium-4 aims for Vandenberg landing". NASASpaceFlight.com. Retrieved 17 October 2017.
- ^ @ChrisG_NSF (2017). "Chris G - NSF Tweet". Twitter.
- ^ "Used SpaceX Rocket Launches 10 Communications Satellites Once Again". Space.com. 22 December 2017. Retrieved 23 December 2017.
- ^ Graham, William (22 February 2018). "SpaceX launches Falcon 9 with PAZ, Starlink demo and new fairing – NASASpaceFlight.com". NASASpaceFlight.com.
- ^ "SpaceX lanzará el satélite Paz de Hisdesat a finales de año" [SpaceX will launch the Paz satellite of Hisdesat at the end of the year]. Infoespacial.com (in Spanish). 7 March 2017. Retrieved 9 March 2017.
- ^ Tariq Malik (30 March 2018). "Liftoff! Used SpaceX Rocket Launches 10 Iridium Satellites into Orbit". space.com. Retrieved 2 April 2023.
- ^ "Double Asteroid Redirection Test (DART)". Retrieved 17 July 2021. This article incorporates text from this source, which is in the public domain.
- ^ Krebs, Gunter. "SARah 2/3". Gunter's Space Page. Retrieved 22 November 2020.
- ^ "BTW it looks all but certain 2 out of 22 Starlink satellites on just-launched Group 7-16 are actually "Starshield" sats of the US military: * Mysterious drop outs in live cam feeds from the 2nd stage during ascent * No forward looking camera views seen as per usual practices". X (Formerly Twitter).
- ^ "BTW it looks all but certain 2 out of 22 Starlink satellites on just-launched Group 7-16 are actually "Starshield" sats of the US military:* Mysterious drop outs in live cam feeds from the 2nd stage during ascent* No forward looking camera views seen as per usual practices". X (Formerly Twitter).
- ^ "SPHEREx". jpl.nasa.gov. Retrieved 28 October 2022.
- ^ McDowell, Jonathan. "Satellite Catalogue". Jonathan's Space Page. Retrieved 7 February 2009.
- ^ a b c "SpaceX Falcon 9 launches with SAOCOM 1A and nails first West Coast landing". NASASpaceFlight.com. 7 October 2018. Retrieved 8 October 2018.
- ^ a b Clark, Stephen (17 February 2015). "SpaceX leases property for landing pads at Cape Canaveral, Vandenberg". Spaceflight Now. Retrieved 19 February 2015.
- ^ Bergin, Chris (28 July 2014). "SpaceX Roadmap building on its rocket business revolution". NASASpaceFlight.com. Retrieved 28 July 2014.
At this point, we are highly confident of being able to land successfully on a floating launch pad or back at the launch site and refly the rocket with no required refurbishment
- ^ SpaceX Demolishes SLC-4W Titan Pad. YouTube. 18 September 2014. Archived from the original on 21 December 2021. Retrieved 3 September 2015.
- ^ Gebhardt, Chris (6 February 2018). "SpaceX successfully debuts Falcon Heavy in demonstration launch from KSC". NASASpaceFlight.com. Retrieved 27 February 2018.
- ^ Gebhardt, Chris (22 December 2017). "SpaceX close out 2017 campaign with Iridium-4 launch". NASASpaceFlight.com. Retrieved 27 February 2018.
- ^ Gebhardt, Chris (6 July 2018). "SpaceX, ULA near-term manifests take shape, SpaceX aims for 1st RTLS at Vandenberg". NASASpaceFlight.com. Retrieved 9 July 2018.
External links
edit- Wade, Mark. "Vandenberg SLC4W". Encyclopedia Astronautica. Archived from the original on 16 October 2008. Retrieved 1 September 2008.
- Wade, Mark. "Vandenberg SLC4E". Encyclopedia Astronautica. Archived from the original on 15 October 2008. Retrieved 1 September 2008.