List of Starship launches: Difference between revisions

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Revision as of 18:21, 13 August 2024 editRedacted II (talk \| contribs)Extended confirmed users5,165 edits result was "Move", so changing see also to reflectTag: Visual edit ← Previous edit		Revision as of 23:17, 15 August 2024 edit undoRedacted II (talk \| contribs)Extended confirmed users5,165 edits Starship v2 -> Starship 2Tag: Visual edit Next edit →
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	== Statistics ==		== Statistics ==
	<!-- Do not consider flights "planned" unless a month-specific NET has been stated-->
	Starship vehicles have been launched {{SpaceX Starship Statistics\|totalLaunches}} times over {{time interval\|2023-04-20\|show=y\|round=on}}, resulting in {{SpaceX Starship Statistics\|totalLaunchSuccess}} full successes ({{percentage\|{{SpaceX Starship Statistics\|totalLaunchSuccess}}\|{{SpaceX Starship Statistics\|totalLaunches}}\|2}}), and two in-flight failures (], ]).		Starship vehicles have been launched {{SpaceX Starship Statistics\|totalLaunches}} times over {{time interval\|2023-04-20\|show=y\|round=on}}, resulting in {{SpaceX Starship Statistics\|totalLaunchSuccess}} full successes ({{percentage\|{{SpaceX Starship Statistics\|totalLaunchSuccess}}\|{{SpaceX Starship Statistics\|totalLaunches}}\|2}}), and two in-flight failures (], ]).

	] has been launched three times between April 2023 to ~~March~~ 2024, and will be replaced by ] after another four flights.		Starship 1 has been launched three times between April 2023 to June 2024, and will be replaced by ] after another four flights.

	{{col-float}}		{{col-float}}
	=== Vehicle variants ===		=== Vehicle variants ===
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	\|height=250		\|height=250
	\|stack=3		\|stack=3
	\|group 1=2:2:0 <!-- Starship v1-->		\|group 1=2:2:0 <!-- Starship 1-->
	\|group 2=0:0:0 <!-- Starship v2-->		\|group 2=0:0:0 <!-- Starship 1.5-->
	\|group 3=0:0:0 <!-- Starship v3 -->		\|group 3=0:0:0 <!-- Starship 2-->
	\|group 4=0:0:0 <!-- Starship ~~Crew~~ -->		\|group 4=0:0:0 <!-- Starship 3-->
	\|group 5=0:0:0 <!-- Starship HLS -->		\|group 5=0:0:0 <!-- Starship HLS -->
	\|group 6=0:0:0 <!-- Starship ~~Tanker~~ -->		\|group 6=0:0:0 <!-- Starship Crew-->
	<!-- years 23 24 25 -->\|colors=lightsteelblue : steelblue : seagreen : dodgerblue : mediumpurple : orange		<!-- years 23 24 25 -->\|colors=lightsteelblue : steelblue : seagreen : dodgerblue : mediumpurple : orange
	\|group names=] : ] : ] : Starship Crew : ] : Starship Tanker		\|group names=] : ] : ] : Starship Crew : ] : Starship Tanker
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	!rowspan=2 scope="row" style="text-align:center;"\|]		!rowspan=2 scope="row" style="text-align:center;"\|]
	\|NET August 2024		\|NET August 2024
	\| v1		\| 1
	\| ]<br/>]		\| ]<br/>]
	\| Starbase, OLM-A		\| Starbase, OLM-A
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	!rowspan=2 scope="row" style="text-align:center;"\|]		!rowspan=2 scope="row" style="text-align:center;"\|]
	\| 2024		\| 2024
	\| v1		\| 1
	\| ]<br/>]		\| ]<br/>]
	\| Starbase, OLM-A		\| Starbase, OLM-A
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	!rowspan=2 scope="row" style="text-align:center;"\|7		!rowspan=2 scope="row" style="text-align:center;"\|7
	\|2024		\|2024
	\|v1.5{{efn\|V1 booster, V2 ship\|name=v1.5}}<ref>{{Cite web \|last=Jax \|date=2024-06-04 \|title=From Render to Reality: A Status Update on Starship Block 2 \|url=https://ringwatchers.com/article/v2-ship-june-2024#block-2-super-heavy \|access-date=2024-06-27 \|website=Ringwatchers}}</ref>		\|1.5{{efn\|V1 booster, V2 ship\|name=v1.5}}<ref>{{Cite web \|last=Jax \|date=2024-06-04 \|title=From Render to Reality: A Status Update on Starship Block 2 \|url=https://ringwatchers.com/article/v2-ship-june-2024#block-2-super-heavy \|access-date=2024-06-27 \|website=Ringwatchers}}</ref>
	\|], ]<ref name=":10" />		\|], ]<ref name=":10" />
	\|Starbase, OLM-A		\|Starbase, OLM-A
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	!rowspan=2 scope="row" style="text-align:center;"\|8		!rowspan=2 scope="row" style="text-align:center;"\|8
	\|2024		\|2024
	\|v1.5{{efn\|V1 booster, V2 ship\|name=v1.5}}		\|1.5{{efn\|V1 booster, V2 ship\|name=v1.5}}
	\|], Unkown		\|], Unkown
	\|Starbase, OLM-A		\|Starbase, OLM-A
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	\| rowspan="3" \|Propellant Transfer Demo		\| rowspan="3" \|Propellant Transfer Demo
	\|NET 2025<ref name=":6">{{Cite web \|last=Clark \|first=Stephen \|date=2024-04-30 \|title=NASA lays out how SpaceX will refuel Starships in low-Earth orbit \|url=https://arstechnica.com/space/2024/04/nasa-exploration-chief-lays-out-next-steps-for-starship-development/ \|access-date=2024-06-01 \|website=Ars Technica \|language=en-us}}</ref>		\|NET 2025<ref name=":6">{{Cite web \|last=Clark \|first=Stephen \|date=2024-04-30 \|title=NASA lays out how SpaceX will refuel Starships in low-Earth orbit \|url=https://arstechnica.com/space/2024/04/nasa-exploration-chief-lays-out-next-steps-for-starship-development/ \|access-date=2024-06-01 \|website=Ars Technica \|language=en-us}}</ref>
	\|]		\|]
	\|{{TBA}}		\|{{TBA}}
	\|{{TBA}}		\|{{TBA}}
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	\|-		\|-
	\|NET 2025<ref name=":6" />		\|NET 2025<ref name=":6" />
	\|v2		\|2
	\|{{TBA}}		\|{{TBA}}
	\|{{TBA}}		\|{{TBA}}
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	\| rowspan="17" \|HLS Demo		\| rowspan="17" \|HLS Demo
	\| NET 2025<ref name="spo-202401092">{{cite web \|last=Smith \|first=Marcia \|date=9 January 2024 \|title=NASA Delays Next Artemis Missions to 2025 and 2026 \|url=https://spacepolicyonline.com/news/nasa-delays-next-artemis-missions-to-2025-and-2026/ \|url-status=live \|archive-url=https://web.archive.org/web/20240110150303/https://spacepolicyonline.com/news/nasa-delays-next-artemis-missions-to-2025-and-2026/ \|archive-date=10 January 2024 \|access-date=10 January 2024 \|work=SpacePolicyOnline}}</ref>		\| NET 2025<ref name="spo-202401092">{{cite web \|last=Smith \|first=Marcia \|date=9 January 2024 \|title=NASA Delays Next Artemis Missions to 2025 and 2026 \|url=https://spacepolicyonline.com/news/nasa-delays-next-artemis-missions-to-2025-and-2026/ \|url-status=live \|archive-url=https://web.archive.org/web/20240110150303/https://spacepolicyonline.com/news/nasa-delays-next-artemis-missions-to-2025-and-2026/ \|archive-date=10 January 2024 \|access-date=10 January 2024 \|work=SpacePolicyOnline}}</ref>
	\| v2		\| 2
	\| {{TBA}}		\| {{TBA}}
	\| {{TBA}}		\| {{TBA}}
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	\|-		\|-
	\| NET 2025		\| NET 2025
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	\| rowspan="17" \|]		\| rowspan="17" \|]
	\| NET 2026		\| NET 2026
	\| v2<ref name="spo-202401092" />		\| 2<ref name="spo-202401092" />
	\| {{TBA}}		\| {{TBA}}
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	\| rowspan="17" \|Astrolab FLEX rover mission<ref name=":0">{{Cite web \|title=Astrolab \|url=https://astrolab.space/mission1 \|access-date=2024-06-09 \|website=astrolab.space}}</ref>		\| rowspan="17" \|Astrolab FLEX rover mission<ref name=":0">{{Cite web \|title=Astrolab \|url=https://astrolab.space/mission1 \|access-date=2024-06-09 \|website=astrolab.space}}</ref>
	\| NET Mid 2026		\| NET Mid 2026
	\| v2		\| 2
	\| {{TBA}}		\| {{TBA}}
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	\| rowspan="3" \|First Mars Mission		\| rowspan="3" \|First Mars Mission
	\| NET 2026		\| NET 2026
	\| v2		\| 2
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	\| rowspan="2" \|Superbird-9		\| rowspan="2" \|Superbird-9
	\| NET 2027<ref name=":6" />		\| NET 2027<ref name=":6" />
	\| ]		\| ]
	\| {{TBA}}		\| {{TBA}}
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	\| rowspan="17" \|ISRU Processing System		\| rowspan="17" \|ISRU Processing System
	\|NET 2027<ref name=":9">{{cite web \|title=OffWorld Europe and Luxembourg Space Agency Collaborate in New Lunar ISRU Exploration Program \|url=https://www.businesswire.com/news/home/20230418006222/en/OffWorld-Europe-and-Luxembourg-Space-Agency-Collaborate-in-New-Lunar-ISRU-Exploration-Program \|access-date=26 February 2024 \|website=]}}</ref>		\|NET 2027<ref name=":9">{{cite web \|title=OffWorld Europe and Luxembourg Space Agency Collaborate in New Lunar ISRU Exploration Program \|url=https://www.businesswire.com/news/home/20230418006222/en/OffWorld-Europe-and-Luxembourg-Space-Agency-Collaborate-in-New-Lunar-ISRU-Exploration-Program \|access-date=26 February 2024 \|website=]}}</ref>
	\|v2		\|2
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	\| rowspan="17" \|]		\| rowspan="17" \|]
	\| NET 2028<ref name="OptionB">{{Cite web \|last=Lloyd \|first=Vanessa \|date=15 November 2022 \|title=NASA Awards SpaceX Second Contract Option for Artemis Moon Landing \|url=https://www.nasa.gov/press-release/nasa-awards-spacex-second-contract-option-for-artemis-moon-landing-0 \|url-status=live \|archive-url=https://web.archive.org/web/20221121142814/https://www.nasa.gov/press-release/nasa-awards-spacex-second-contract-option-for-artemis-moon-landing-0/ \|archive-date=21 November 2022 \|access-date=4 February 2023 \|publisher=NASA}}</ref>		\| NET 2028<ref name="OptionB">{{Cite web \|last=Lloyd \|first=Vanessa \|date=15 November 2022 \|title=NASA Awards SpaceX Second Contract Option for Artemis Moon Landing \|url=https://www.nasa.gov/press-release/nasa-awards-spacex-second-contract-option-for-artemis-moon-landing-0 \|url-status=live \|archive-url=https://web.archive.org/web/20221121142814/https://www.nasa.gov/press-release/nasa-awards-spacex-second-contract-option-for-artemis-moon-landing-0/ \|archive-date=21 November 2022 \|access-date=4 February 2023 \|publisher=NASA}}</ref>
	\| ]		\| ]
	\| {{TBA}}		\| {{TBA}}
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	\|-		\|-
	\| NET 2028		\| NET 2028
	\| v3		\| 3
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	\|-		\|-
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	\| v3		\| 3
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	\|-		\|-
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	\|-		\|-
	\| NET 2028		\| NET 2028
	\| v3		\| 3
	\| {{TBA}}		\| {{TBA}}
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	\|-		\|-
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	\| {{TBA}}		\| {{TBA}}
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	\| {{TBA}}		\| {{TBA}}
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	\|-		\|-
	\| NET 2028		\| NET 2028
	\| v3		\| 3
	\| {{TBA}}		\| {{TBA}}
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	\| {{TBA}}		\| {{TBA}}
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Line 1,288:		Line 1,288:
	\|-		\|-
	\| NET 2028		\| NET 2028
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Line 1,299:		Line 1,299:
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	\| rowspan="2" \|Starlab		\| rowspan="2" \|Starlab
	\| NET 2028<ref>{{Cite web \|last=Sheetz \|first=Michael \|date=2024-01-31 \|title=Starlab, meet Starship: Private space station buys SpaceX launch for later this decade \|url=https://www.cnbc.com/2024/01/31/voyagers-starlab-space-station-buys-spacex-starship-launch.html \|url-status=live \|archive-url=https://web.archive.org/web/20240131162413/https://www.cnbc.com/2024/01/31/voyagers-starlab-space-station-buys-spacex-starship-launch.html \|archive-date=31 January 2024 \|access-date=2024-01-31 \|website=CNBC \|language=en}}</ref>		\| NET 2028<ref>{{Cite web \|last=Sheetz \|first=Michael \|date=2024-01-31 \|title=Starlab, meet Starship: Private space station buys SpaceX launch for later this decade \|url=https://www.cnbc.com/2024/01/31/voyagers-starlab-space-station-buys-spacex-starship-launch.html \|url-status=live \|archive-url=https://web.archive.org/web/20240131162413/https://www.cnbc.com/2024/01/31/voyagers-starlab-space-station-buys-spacex-starship-launch.html \|archive-date=31 January 2024 \|access-date=2024-01-31 \|website=CNBC \|language=en}}</ref>
	\| v3		\| 3
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Revision as of 23:17, 15 August 2024

List of launches of SpaceX's fully reusable Starship

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This article is about the launches of the Starship vehicle. For the suborbital flight tests of the upper stage, see SpaceX Starship flight tests.

Since April 2023, SpaceX Starship vehicles have flown 6 times, with 4 successes and 2 failures. SpaceX has developed Starship with the intention of lowering launch costs using economies of scale. SpaceX aims to achieve this by reusing both rocket stages, increasing payload mass to orbit, increasing launch frequency, creating a mass-manufacturing pipeline and adapting it to a wide range of space missions. Starship is the latest project in SpaceX's reusable launch system development program and plan to colonize Mars.

There are currently three planned versions of Starshop, v1, v2, and v3. As of June 2024, only v1 vehicles have flown.

Both Starship's first and second stages are reusable, and can be caught via the arms used to assemble the rocket at the pad.

Nomenclature

SpaceX calls the entire launch vehicle "Starship", which consists of the Super Heavy first-stage booster and the ambiguously named Starship second-stage. To avoid confusion, "Starship" in this article on the flight testing phase (2019–2024) means the second-stage, while the complete launch vehicle will be referred by the particular prototype booster and ship serial number. For example, the integrated flight test 1 booster was Booster 7 (B7), the spacecraft was Ship 24 (S24), and the launch vehicle stack is referred to as Ship 24/Booster 7, or S24/B7.

The first tests started with the construction of an initial flight prototype in 2018, Starhopper, which performed several static fire tests plus two successful low-altitude flights in 2019. SpaceX began constructing the first full-size Starship Mk1 and Mk2 upper-stage prototypes before 2019, at the SpaceX facilities in Boca Chica, Texas, and Cocoa, Florida, respectively. After the Mk prototypes, SpaceX began naming its new Starship upper-stage prototypes with the prefix "SN", short for "serial number". Around mid-2021, SpaceX changed their naming scheme from "SN" to "Ship", or simply "S," for Starship vehicles, and from "BN" to "Booster," or simply "B," for Super Heavy boosters.

Statistics

Starship vehicles have been launched 6 times over 2 years, resulting in 4 full successes (66.67%), and two in-flight failures (IFT-1, IFT-2).

Starship 1 has been launched three times between April 2023 to June 2024, and will be replaced by Starship 2 after another four flights.

Vehicle variants

1 2 2023 2024 2025

Starship v1
Starship v2
Starship v3
Starship Crew
Starship HLS
Starship Tanker

Launch sites

1 2 2023 2024 2025

Starbase, OLM-A
Starbase, OLM-B
KSC, LC-39A
CCSFS, SLC-37

Flight characteristics

1 2 2023 2024 2025

TAO/SO
Earth orbit
Lunar
Mars

Launch outcomes

5 10 15 20 2023 2024 2025

Failure
Partial failure
Success (empty)
Success (payload)
Success (crew)
Planned (empty)
Planned (payload)
Planned (crew)

Booster landings

1 2 2023 2024 2025

Precluded
Ocean failure
Tower failure
Ocean success
Tower success
No attempt

Ship landings

1 2 2023 2024 2025

Precluded
Ocean failure
Tower failure
Ocean success
Tower success
No attempt

SpaceX declared both launches a success
Any controlled flight to water, no recovery
Any controlled flight to water, no recovery

Past launches

2023

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Launch outcome	Booster landing	Ship landing
IFT-1	20 April 2023 13:33:09	v1	B7 S24	Starbase, OLM-A	None	None	Transatmospheric	SpaceX	Failure (SpaceX declared success)	Precluded (ocean)	Precluded (ocean)
IFT-1	The first integrated flight test of Starship was the first flight test of the full launch vehicle with both the Super Heavy booster and the Starship upper stage integrated. If all early parts of the test were nominal on the test plan, the booster would ultimately make a powered splashdown in the Gulf of Mexico, and the ship would enter a transatmospheric Earth orbit before reentering and impacting the Pacific Ocean north of Hawaii. Three engines were shut down before the booster lifted off the launch mount, with at least three more engines shutting down during booster powered flight. The vehicle eventually entered an uncontrolled spin before stage separation due to loss of thrust vector control. The flight termination system detonated with the intent to destroy the vehicle immediately, but the vehicle remained intact until T+3:59, more than 40 seconds after activation of the flight termination system. SpaceX declared this flight a success, as their primary goal was to only clear the pad. The launch resulted in extensive damage to the orbital launch mount and the infrastructures around it, including the propellant tank farm.
IFT-2	18 November 2023 13:02:50	v1	B9 S25	Starbase, OLM-A	None	None	Transatmospheric	SpaceX	Failure (SpaceX declared success)	Failure (ocean)	Precluded (ocean)
IFT-2	The second integrated flight test of Starship had a test flight profile similar to the first flight, with the addition of a new hot-staging technique and the introduction of a water deluge system as part of the ground support equipment at the launch pad. During the first stage ascent, all 33 engines fired to full duration. Starship and Super Heavy successfully accomplished a hot-staging separation. After initiating a flip maneuver and initiating boostback burn, several booster engines began shutting down, due to filter blockage. One engine failed explosively, with the damage caused resulting in a loss of the booster. The upper stage ascended normally for another six minutes. A leak in the aft section developed while a planned liquid oxygen venting was underway, triggering a combustion event that interrupted communication between the craft’s flight computers, causing full engine shutdown. The Autonomous Flight Safety System detected this mission rule violation and activated the flight termination system (FTS) as the ship reached an altitude of ~148 km and velocity of ~24,000 km/h.

2024

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Launch outcome	Booster landing	Ship landing
IFT-3	14 March 2024 13:25:00	v1	B10 S28	Starbase, OLM-A	None	None	Suborbital	SpaceX	Success	Failure (ocean)	Failure (ocean)
IFT-3	The third integrated flight test of Starship included a full-duration burn of the second-stage engines, an internal propellant-transfer demonstration, and a test of the Starlink dispenser door. If the test sequence had progressed further, additional tests would have included an in-space relight followed by a hard splashdown of the ship in the Indian Ocean, approximately 1 hour 4 minutes after launch. The booster successfully propelled the spacecraft to staging, with 13 engines successfully ignited for a boostback burn, though 6 engines failed a few seconds before the end of the burn. However, several minutes later, during the landing burn ignition, only three engines ignited, and the booster was destroyed by unknown causes at an altitude of 462 meters above the ocean. The spacecraft trajectory was suborbital, with a 234 km (145 mi) apogee and −50 km (−31 mi) perigee, although the ship did reach orbital speed.). A scheduled restart of a Raptor engine for a prograde burn test did not occur, which would have resulted in a 50 km (31 mi) perigee and somewhat later entry into the atmosphere. Minutes into atmospheric re-entry, Ship 28's telemetry cut off, leading SpaceX to conclude the ship had disintegrated prior to its planned splashdown.
IFT-4	6 June 2024 12:50:00	v1	B11 S29	Starbase, OLM-A	None	None	Suborbital	SpaceX	Success	Success (ocean)	Success (ocean)
IFT-4	IFT-4 was to use almost the same trajectory as IFT-3. It would not test the Pez Dispenser, or in-space relight, though the ship was to relight its engines for a landing burn. B11 was to attempt a landing on a "virtual tower", in preparation for a catch during IFT-5. Launch included a loss of a single Raptor engine on booster, but the booster still managed to perform in accordance to it's flight profile and conduct a successful controlled splashdown in the Gulf of Mexico. The spacecraft performed a successful re-entry despite severe forward flap damage, with the spacecraft still conducted a successful controlled splashdown in the Indian Ocean.

Future launches

2024

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Booster landing	Ship landing
IFT-5	NET August 2024	1	B12 S30	Starbase, OLM-A	Unknown	Unknown	TBA	SpaceX	Planned (unknown)	Planned (ocean)
IFT-5	After the successful booster splashdown during IFT-4, Elon Musk stated that Flight 5 will involve a catch of the Super Heavy booster on the tower.
IFT-6	2024	1	B13 S31	Starbase, OLM-A	Unknown	Unknown	TBA	SpaceX	Planned (tower)	Planned (unknown)
IFT-6	As of June 2024, the flight profile for IFT-6 is unknown.
7	2024	1.5	B14, S33	Starbase, OLM-A	Unknown	Unknown	TBA	SpaceX	Planned (tower)	Planned (unknown)
7	As of June 2024, the flight profile for Flight 8 is unknown. Flight 7 will feature the first flight of a v2 ship.
8	2024	1.5	B15, Unkown	Starbase, OLM-A	Unknown	Unknown	TBA	SpaceX	Planned (tower)	Planned (unknown)
8	As of June 2024, the flight profile for Flight 8 is unknown.

2025

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Booster landing	Ship landing
Propellant Transfer Demo	NET 2025	2	TBA	TBA	Unknown	Unknown	Low Earth Orbit	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	Low Earth Orbit	NASA	Planned (tower)	Planned (tower)
	Propellant transfer demonstration between Starships. Launches will be 3-4 weeks apart, using the same launch pad.
HLS Demo	NET 2025	2	TBA	TBA	Unknown	Unknown	TBA	NASA	Planned (tower)	No attempt
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2025	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NASA demonstration mission for the Human Landing System prior to Artemis 3, announced in April 2021.

2026

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Booster landing	Ship landing
Artemis 3	NET 2026	2	TBA	TBA	Unknown	Unknown	TBA	NASA	Planned (tower)	No attempt
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	First crewed lunar landing since Apollo 17.
Astrolab FLEX rover mission	NET Mid 2026	2	TBA	TBA	Astrolab FLEX Rover	>2 tons	TBA	Astrolab	Planned (tower)	No attempt
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	NET Mid 2026	2	TBA	TBA	Fuel	Unknown	TBA	Astrolab	Planned (tower)	Planned (tower)
	Flexible Logistics and Exploration (FLEX) rover will include 1,000 kilograms of customer payloads.
First Mars Mission	NET 2026	2	TBA	TBA	Unknown	Unknown	TBA	SpaceX	Planned (tower)	No attempt
	NET 2026	2	TBA	TBA	Fuel	Unknown	TBA	SpaceX	Planned (tower)	Planned (tower)
	As of 2023, this was mentioned as the earliest potential cargo flight to Mars. It is unknown how many tanker launches will be needed.

2027

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Booster landing	Ship landing
Superbird-9	NET 2027	2	TBA	TBA	Superbird-9	Unknown	Geostationary Orbit	NASA	Planned (tower)	Planned (tower)
Superbird-9	Superbird-9 is a SKY Perfect JSAT's fully flexible HTS (High Throughput Satellites) based on Airbus' OneSat product line. It will be launched on a Starship launch vehicle in 2027 to geosynchronous transfer orbit.
ISRU Processing System	NET 2027	2	TBA	TBA	ISRU Processing System	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	No attempt
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	NET 2027	2	TBA	TBA	Fuel	Unknown	TBA	Luxembourg Space Agency	Planned (tower)	Planned (tower)
	In April 2023, LSA and a private firm, OffWorld Europe, announced a partnership to develop an ISRU process to extract, process, store and use water collected from the surface of the moon in the form of ice. The project, which is under the oversight of the ESA, will use OffWorld's technical expertise in robotics with a technology demonstration mission slated for launch to the moon in 2027 as part of SpaceX's first Starship HLS mission for the Artemis program.

2028

Mission	Date and time (UTC)	Version	Booster, ship	Launch site	Payload	Payload mass	Orbit	Customer	Booster landing	Ship landing
Artemis 4	NET 2028	3	TBA	TBA	Unknown	Unknown	TBA	NASA	Planned (tower)	No attempt
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	NET 2028	3	TBA	TBA	Fuel	Unknown	TBA	NASA	Planned (tower)	Planned (tower)
	On November 15, 2022, NASA announced it had awarded a contract to SpaceX as part of Option B of the Appendix H contract. This would allow SpaceX to use a second-generation Starship HLS design to conduct a Lunar Gateway-based demonstration mission as part of Artemis 4.
Starlab	NET 2028	3	TBA	TBA	Starlab	Unknown	TBA	Voyager Space/Airbus	Planned (tower)	Planned (tower)
Starlab	As of 2023, this was mentioned as the earliest potential cargo flight to Mars. It is unknown how many tanker launches will be needed

Notes

^ V1 booster, V2 ship

References

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SpaceX

History

Launch vehicles

Current	Falcon 9 Block 5 boosters Falcon Heavy
In development	Starship Super Heavy booster upper stage lunar lander
Retired	Falcon 1 Falcon 9 v1.0 v1.1 "Full Thrust" v1.2 Block 4
Cancelled	Falcon 1e* Falcon 5* Falcon 9 Air* BFR and ITS*

Spacecraft

Cargo	Dragon 1 Cargo Dragon 2 Cargo Dragon XL* Starship*
Crewed	Dragon 2 Crew C206 Endeavour C207 Resilience C210 Endurance C212 Freedom Starship*