STARSHIP

TAG: GS-3: SCIENCE AND TECHNOLOGY

THE CONTEXT: SpaceX’s recent achievements with its Starship rocket represent significant advancements in space technology that could have far-reaching implications, including on India’s space sector and policymaking.

EXPLANATION:

What is Starship?

    • Starship is a two-stage heavy lift vehicle consisting of a booster (called Super Heavy) and an upper part (the Starship spacecraft).
    • The rocket system is about 120 meters long, making it the largest rocket ever built – even taller than the Saturn V (111 meters), which carried Neil Armstrong to the moon.
    • Raptor engine fuel uses a mix of liquid oxygen and liquid methane, enabling efficient propulsion for the rocket.
    • Starship is designed to carry crew and/or cargo to Earth orbit, the moon, Mars and beyond, and once fully operational, it could revolutionize space travel.
    • Reusable transport system: The system is designed to be fully and rapidly reusable.

What are the components of Starship:

     Super Heavy Booster        Starship Spacecraft:
    • Equipped with 33 Raptor engines that produce 74 meganewtons of thrust, compared to NASA’s Space Launch System’s (SLS) 39 meganewtons and Saturn V’s 35 meganewtons.
    • Uses a 3.6:1 ratio of liquid oxygen and liquid methane.
    • Fully reusable, designed to re-enter Earth’s atmosphere and land at the launch site.
    • Consists of six Raptor engines and four landing fins.
    • Fully reusable, capable of re-entering Earth’s atmosphere after completing its mission.

 

Scientific Benefits of Starship:

(Reducing the Cost of Space Travel)

  • Heavy Lift Capabilities: Can carry up to 150 tonnes to low Earth orbit and at least 100 tonnes to the Moon and Mars.
    • This payload capacity exceeds the total mass humans have soft-landed on the lunar surface to date.
  • In-Orbit Refueling:
    • The Starship’s upper stage can be refueled in Earth orbit by other Starships, akin to how airplanes refuel mid-flight.
    • This feature increases payload capacity and allows for more advanced scientific instruments.
  • Complete Reusability:
    • Unlike other launch systems where hardware is discarded, Starship’s components are designed to be recovered and reused.
    • This approach significantly reduces mission costs. For example, Starship could deliver 100 tonnes to Mars for about $50 million, compared to the Space Shuttle’s $1.5 billion cost for a much smaller payload to low Earth orbit.
  • Enhanced Capabilities:
    • Starship’s ability to carry heavy payloads at lower costs addresses major challenges in space exploration.
    • Enables the launch of larger and more advanced space telescopes, and heavier equipment for Moon and Mars missions, such as full-sized drilling rigs.
  • Support for NASA’s Artemis Program:
    • Central to NASA’s Artemis program, aiming to return astronauts to the Moon by 2030 and send them to Mars by the end of the next decade.

What are the challenges:

    • Proving Viability: SpaceX needs to ensure Starship’s safety and reliability while keeping costs low. This has historically been a challenge for reusable spaceflight programs, such as NASA’s Space Shuttle.
    • Despite quick advancements, Starship’s progress has been slower than anticipated and has incurred significant costs.
    • A Reuters investigation in 2023 highlighted workplace injuries and safety concerns due to the aggressive development timeline.

 

SOURCE:

https://indianexpress.com/article/explained/explained-sci-tech/why-spacex-catching-starship-booster-with-robotic-arms-is-significant-9620305/

Spread the Word