Video: Camera in middle of Indian Ocean captures Starship's water landing
The flight culminated in a dramatic splashdown in the Indian Ocean, off the northwestern coast of Australia.
by India Today Science Desk · India TodayIn Short
- Starship megarocket was launched from SpaceX's Starbase facility
- It embarked on a suborbital journey that took it partway around the world
- This test flight differed from its predecessor in October
SpaceX's Starship, the world's largest and most powerful rocket, completed its sixth test flight on November 19, 2024, and a camera strategically placed on a buoy captured the moment it made a splash down in the Indian Ocean. This marked another milestone in the company's ambitious space exploration program.
The 165-foot-tall upper stage of the Starship megarocket launched from SpaceX's Starbase facility in South Texas, embarking on a suborbital journey that took it partway around the world.
STARSHIP LANDING IN INDIAN OCEAN
The flight culminated in a dramatic splashdown in the Indian Ocean, off the northwestern coast of Australia.
In a remarkable feat of engineering and planning, a camera mounted on a buoy in the ocean captured the final moments of the spacecraft's descent. SpaceX shared 23 seconds of this captivating footage on social media, showcasing the Starship's controlled landing burn and splashdown.
This test flight differed from its predecessor in October by occurring in the late afternoon, allowing for a daylight splashdown. This strategic timing provided SpaceX with better visibility to observe the critical reentry, descent, and landing phases.
The fully stacked Starship, standing at an impressive 400 feet tall, continues to push the boundaries of space technology. While this flight mirrored many aspects of the previous test, it represented another step towards SpaceX's goal of developing a fully reusable megarocket system.
Looking ahead, SpaceX aims to refine its recovery process, with plans to catch both the Super Heavy booster and the Starship upper stage using mechanical arms at the launch site.
This innovation is expected to significantly accelerate the inspection and reflight process, bringing humanity closer to sustainable moon and Mars exploration