Minutes after it launched, the spacecraft conducted a successful hot staging, the Starship separated precisely from the Super Heavy rocket.

Unlike previous tests that attempted experimental land-based recoveries, the booster on this mission is targeting a controlled splashdown in the Gulf of Mexico.

SpaceX engineers programmed multiple landing-burn sequences to test the vehicle’s ability to restart engines at different phases of descent. The booster executed a dramatic “flip manoeuvre” shortly after stage separation, followed by a boostback burn to guide its trajectory toward the ocean landing zone.

Such manoeuvres are essential for developing the precise control required for eventual catch attempts using the launch tower’s mechanical arms, an ambitious method SpaceX hopes to perfect later in its test campaign.

By rehearsing these intermediate steps over water, the company minimises risk while gathering valuable performance data.

The Starship upper stage is also expected to continue its ascent to near-orbital velocities, with the goal of demonstrating improved thermal protection and structural endurance upon reentry. Starship represents a cornerstone of SpaceX’s long-term vision, with applications ranging from rapid point-to-point travel on Earth to future Artemis Moon landings and crewed Mars missions.

Wednesday’s launch follows a series of incremental improvements across earlier flights, including advancements in stage separation, engine reliability, and heat shield durability. Each step moves SpaceX closer to making Starship a fully reusable, high-capacity launch vehicle capable of carrying both crew and cargo to deep space destinations.

For now, the 10th test stands as a crucial milestone: confirming whether the Super Heavy booster can reliably perform the precision maneuvers needed to advance the era of giant, reusable rockets.

– Ends