SpaceX is building a fully reusable Starship to expand the human footprint beyond Earth.

As SpaceX’s envisioned multipurpose spacecraft, Starship will be capable of launching substantial payloads to any destination in the solar system, allow humans to live and work on Mars, perform lunar exploration for NASA, and conduct speedy intercontinental point-to-point transportation to destinations across Earth's surface.

Technical Specifications

Height: 50m / 164ft

Diameter: 9m / 30ft

Thrust: 1500tf / 3.2 Mlbf

Payload capacity: 100-150 to

Flight Heritage

Integrated Flight Test 3

On March 14, 2024, Starship successfully lifted off at 8:25 a.m. CT from Starbase in Texas and went on to accomplish several major milestones and firsts:

For the second time, all 33 Raptor engines on the Super Heavy Booster started up successfully and completed a full-duration burn during ascent.

Starship executed its second successful hot-stage separation, powering down all but three of Super Heavy’s Raptor engines and successfully igniting the six second stage Raptor engines before separating the vehicles.

Following separation, the Super Heavy booster successfully completed its flip maneuver and completed a full boostback burn to send it towards its splashdown point in the Gulf of Mexico.

Super Heavy successfully lit several engines for its first ever landing burn before the vehicle experienced a RUD (that’s SpaceX-speak for “rapid unscheduled disassembly”). The booster’s flight concluded at approximately 462 meters in altitude and just under seven minutes into the mission.

Starship's six second stage Raptor engines all started successfully and powered the vehicle to its expected orbit, becoming the first Starship to complete its full-duration ascent burn.

While coasting, Starship accomplished several of the flight test’s additional objectives, including the opening and closing of its payload door (aka the pez dispenser,) and initiating a propellant transfer demonstration. Starship did not attempt its planned on-orbit relight of a single Raptor engine due to vehicle roll rates during coast. Results from these demonstrations will come after postflight data review is complete.

Starship went on to experience its first ever entry from space, providing valuable data on heating and vehicle control during hypersonic reentry. Live views of entry were made possible by Starlink terminals operating on Starship. - The flight test’s conclusion came during entry, with the last telemetry signals received via Starlink from Starship at approximately 49 minutes into the mission.

While teams review the data collected from this flight, Starship and Super Heavy vehicles are preparing for upcoming flights as SpaceX seeks to increase their launch cadence throughout the year.

This rapid iterative development approach has been the basis for all of SpaceX’s major innovative advancements, including Falcon, Dragon, and Starlink. Recursive improvement is essential as we work to build a fully reusable transportation system capable of carrying both crew and cargo to Earth orbit, help humanity return to the Moon, and ultimately travel to Mars and beyond.

Integrated Flight Test 2

On November 18th, 2023, Starship Super Heavy successfully lifted off at 7:02 AM CT from Starbase, Texas.

All 33 Raptor engines were successfully ignited and reached full thrust, lifting the largest launch system ever built. In contrast to its previous flight, the Raptor engines onboard the Super Heavy booster functioned as expected. This, combined with quicker thrust throttling to minimize contact with the pad, enabled Starship to lift off smoothly and pitch away from the launch site.

With thrust exceeding twice that of the Saturn V and surpassing NASA's Space Launch System, Starship Super Heavy followed its planned trajectory into space. After passing the point of maximum aerodynamic pressure, the vehicle achieved supersonic speed for the first time.

The previous test flight experienced multiple engine shutdowns before stage separation, but the lessons learned from that flight resulted in a flawless ascent profile. SpaceX addressed all the issues encountered during the first flight, and this launch marked the maiden test flight of several new technologies.

As Starship Super Heavy approached the stage separation point, all but the central three booster engines shut down in a staggered sequence at MECO (Most Engines Cut Off). While the Super Heavy booster continued to provide thrust, though significantly reduced, the six Raptor engines on Starship ignited, facilitating its separation from Super Heavy. Engine plasma exited from the booster’s skirt, in an additional ring specifically designed for this stage separation system — known as hot staging. This was the first time hot staging was performed and tested in-flight on an American rocket since the Titan fleet.

Rarely used by American launch vehicles, hot staging is common in Soviet-era Russian rockets like Soyuz since it simplifies the stage separation system, and enables more mass to orbit. SpaceX estimates that hot staging will increase Starship’s maximum payload to orbit by 10%.

Heat shields and skirtings on the booster helped protect it from Starship's fiery plume. Multiple-raptor engines on Super Heavy reignited as it steered away from Starship and began its boost-back burn. However, it was shortly terminated by the Autonomous Flight Termination system. The cause for this is still unknown, but it’s highly probable that all the required engines might not have reignited properly and the booster significantly deviated from its planned trajectory, leading to its automatic termination at an altitude of 90 kilometers (56 miles) over the Gulf of Mexico.

As it passed the Kármán line (100km) the vehicle became the most powerful rocket to ever make it to space.

Just short of the second stage cut-off, Starship lost all communications from the ground and experienced a Rapid Unscheduled Disassembly (big explosion).

Starship achieved a maximum altitude of ~150 kilometers (93.2 miles), and a velocity of ~24,000 kilometers per hour (~15,000 miles per hour), its highest ever. This second integrated flight test successfully demonstrated the highly dynamic stage separation system, booster boost-back burn, and all the mitigations that were in place after the first flight.

Post-launch, inspections of the pad revealed that work done to strengthen it, including the water-cooled steel plate, worked as expected and requires little to no refurbishment for the next launch.

Despite being a success in terms of an iterative development program, Starship Super Heavy did in fact explode, thereby falling short of its official objectives and immediately triggering an FAA anomaly review.

Integrated Flight Test 1

On April 20th, 2023, Starship lifted off at 9:33 a.m. CT from Starbase, Texas.

SpaceX took a significant step in the development of its rapidly reusable launch vehicle, Starship Super Heavy, by flying the beast to an altitude of 39km during its heart-stopping first fight. Did SpaceX fail to complete its larger objectives? Yes. Did they accelerate the program by testing systems and gathering flight data? Also, Yes.

The rocket cleared the pad and climbed as it continued to lose multiple engines and subsystems essential for the ascent. As more and more engines failed, Starship Super Heavy deviated from its planned trajectory before being stopped by the flight termination system over the Gulf of Mexico. Just before the massive vehicle self-destructed for safety about 4 minutes into the flight, SpaceX’s livestream explained that Starship’s visible cartwheels in the sky instead of the planned booster separation, “does not appear to be a nominal situation.”

Courtesy of SpaceX.

The Starship launch system consists of two stages: a Super Heavy booster and a Starship spacecraft.

The overall system (rocket booster and spacecraft) has undergone a few name changes over the years, including Big Falcon Rocket (BFR), Interplanetary Transport System (ITS), and the Mars Colonial Transporter.

In November 2018, the system was formally named Starship, with the booster receiving the name Super Heavy.

When launched, the Super Heavy booster accelerates the spacecraft to Mach 8 or 9. The spacecraft then continues to orbit under its own power after the booster separates, while the booster returns to the launch site, and lands itself on the launch tower's arms.

The Super Heavy booster contains components such as four grid fins, a flight computer, vents, and batteries. The grid fins installed near the top of the booster control Super Heavy's descent and touchdown onto the future planned launch tower’s pair of mechanical arms.

Technical Specifications

Height: 69m / 230ft

Diameter: 9m / 30ft

Thrust: 3400tf / 6.8 Mlbf

Image: Jenny Hautmann for Supercluster

Located on the US-Mexican border along the shores of the Gulf of Mexico, Boca Chica Village was chosen by SpaceX in 2014 for the company's privately-owned orbital launch site.

At first, Boca Chica was to host Falcon Heavy launches, but the plans soon changed to a more ambitious operation: Starship - SpaceX's multi-purpose transportation spacecraft.

Starbase became operational in 2019 with testing campaigns of the Raptor engines that power Starship.

The area was chosen for its remote location, with only four permanent residents and 12 seasonal residents directly impacted by the site's selection as a private spaceport.

SpaceX recently proposed buying Boca Chica and incorporating it as a new city - Starbase, Texas. Local officials have said they will work with SpaceX on that process.

As first reported by NASASpaceflight, SpaceX has also purchased two former oil rigs and is converting them for use as ocean launch and landing platforms for future Starship operations.

Image: Jenny Hautmann for Supercluster

High-quality prints selected from the Supercluster team’s celebrated spaceflight photography are now available in our shop.

Printed on slightly glossy and fingerprint-resistant photo paper sourced from Japan.

Begin your collection with a shot seen around the world: Erik Kuna’s iconic capture of a young space fan experiencing the jaw-dropping liftoff of Starship Super Heavy.

Commemorate the historic inaugural launch of the Starship Super Heavy with the proper gear.

What else are you going to wear while visiting Starbase?

Purchase our Starship Prototype Tee by clicking here.

Starship Prototype Mission Patch

Mission patch for the SpaceX Starship prototype test program.

3.5" x 3.5"

Iron on backing.

Click here to purchase one from our shop. Supplies are limited.