SpaceX targets July 16 for Starship Flight 13, reveals what went wrong on previous launch

Jul 13, 2026 - 17:40
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SpaceX targets July 16 for Starship Flight 13, reveals what went wrong on previous launch

SpaceX is targeting this week for the next launch of its massive Starship vehicle.

Following engine tests on both Starship stages in the last two weeks — igniting all six Raptor 3s on the "Ship" upper stage and all 33 Raptor 3s on the "Super Heavy" first stage — SpaceX is proceeding with the launch of Starship Flight 13, which is scheduled for no earlier than Thursday (July 16), according to a July 11 SpaceX social media post.

It will be the second launch for Starship "Version 3" (V3), a bigger, more powerful upgrade from previous Starship designs, and will come a little less than two months after V3's debut on Flight 12. To validate those upgrades, SpaceX didn't add any major objectives to Starship Flight 12 that hadn't already been proven on the spacecraft's previous V2 configuration. But the new design didn't quite check all the necessary boxes last time around, so Flight 13 will largely attempt an improved outcome of the same mission.

Though still in its development phase, Starship is designed for full reusability. Unlike SpaceX's Falcon 9 first-stage booster, which is equipped with legs capable of touching the rocket down on coastal landing zones or one of the company's droneships at sea, both Ship and Super Heavy are designed for a return directly to the launch site, where chopstick-like arms on the "Mechazilla" tower catch the stages out of mid-air.

SpaceX has yet to attempt such a recovery with Ship but has succeeded in doing so with Super Heavy three times so far. Two of those caught boosters were then reflown on subsequent launches. When flying the new V3 hardware during Flight 12, though, SpaceX opted for Super Heavy to perform a soft splashdown in the Gulf of Mexico, rather than risk launch pad infrastructure on an unproven vehicle, but Super Heavy didn't make it to the planned touchdown zone.

According to a new SpaceX analysis, a sequence change in Ship's engines, which ignite before the two rocket halves physically detach in a maneuver known as "hot staging," led to a 90-degree error in Super Heavy's orientation after separation. Super Heavy's boostback burn was also cut short when five of its 33 engines failed to relight. SpaceX says it has introduced a modified startup sequence for Ship and hardware updates to Super Heavy to address the orientation anomaly and ignition issues, respectively, "along with updates to engine alarms and aborts to match the conditions seen in the multi-engine flight environment."

Ship ran into a bit of trouble during Flight 12 but also managed to pull off some firsts. One of the spacecraft's three vacuum-optimized Raptors was lost 40 seconds after stage separation, but it still reached its designated suborbital trajectory, demonstrating its "engine out" capabilities, according to the SpaceX update. The loss did, however, prevent Ship's in-space engine relight attempt. SpaceX traced the failure to "interconnected causes" and has introduced a number of fixes for the upcoming Flight 13, "with additional reliability improvements planned in upcoming versions of the Raptor engine."

Flight 12 also featured the first deployment of two of SpaceX's Starlink internet satellites equipped with cameras for inspecting Ship's heatshield tiles and exterior conditions while in space. They were deployed with several Starlink V3 mass simulators, a payload that's getting an upgrade of its own for Flight 13.

SpaceX conducts a static fire test with Ship 40, the upper-stage spacecraft slated to fly Starship's 13th test flight. The company posted this imagery on X on July 2, 2026.

SpaceX conducts a static fire test with Ship 40, the upper-stage spacecraft slated to fly Starship's 13th test flight. (Image credit: SpaceX)

Stowed inside Ship's payload bay for Flight 13 are the first functional Starlink V3 satellites that Starship will deliver to space. SpaceX plans to eventually launch perhaps 100,000 of the upgraded version of its internet satellite constellation spacecraft, which it says will increase the capacity and speed of its wireless network services. SpaceX is including 20 Starlink V3 satellites aboard Flight 13, which will be released for functionality testing while in space. Six of those will be outfitted with cameras for the same type of heatshield inspection performed during Flight 12. Ultimately, due to Starship's suborbital trajectory on this launch, all of these satellites are expected to burn up in Earth's atmosphere about 20 minutes after they are deployed.

For Flight 13, Super Heavy's main objectives will be the successful launch and separation from the Ship upper stage, a complete boostback burn and a soft splashdown in the Gulf of Mexico. In addition to the deployment of Ship's 20 Starlink V3 payloads, SpaceX is also planning the in-space relight of one of the spacecraft's Raptor engines, followed by the successful descent and soft splashdown of the stage in the Indian Ocean.

The Federal Aviation Administration (FAA) announced the closure of its investigation into SpaceX's Flight 12 mishaps this morning (July 13), approving the compnay's corrective actions and clearing the way for Flight 13.

SpaceX is targeting the launch of Flight 13 during a 90-minute window beginning on Thursday at 6:45 p.m. EDT (2245 GMT). A livestream of the mission will begin about 30 minutes prior to liftoff and stream on the company's mission page, profile on X and here on Space.com.

If everything goes smoothly, it's very likely that SpaceX will attempt the first Starship V3 recovery back at its Starbase, Texas, launch site for either Super Heavy or both stages on the following mission, Flight 14, but there are a number of other technical achievements Starship has left on its checklist before the vehicle can become fully operational. Those include launching into a stable orbit, demonstrating successful rendezvous and docking with other spacecraft, and conquering the technological hurdle of transferring and maintaining cryogenic fuels for long-term use in zero-g.

SpaceX is hoping to accomplish all that within the year — quite a tight timeline. NASA has contracted Starship as one of two lunar lander vehicles to deliver astronauts to the surface of the moon on the agency's Artemis program missions and is expecting a crew-capable version to be ready by 2028 for Artemis IV. The company plans to fly a boilerplate Starship V3 equipped with a docking adapter for NASA's Artemis III mission in 2027, which will launch astronauts aboard an Orion spacecraft for rendezvous operations demonstrations with Starship, as well as Blue Origin's Blue Moon lander, in low Earth orbit.

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