a lot
The space shuttle uses a combination of liquid hydrogen and liquid oxygen as fuel for its main engines during the ascent phase to reach orbit.
The fuel supply of a space shuttle typically lasts for about 8.5 minutes after liftoff. During this time, the shuttle uses up the liquid hydrogen fuel and liquid oxygen fuel to power its main engines for the initial ascent phase before they are jettisoned.
The Solid Rocket Boosters (SRBs) drop off the space shuttle to reduce weight and allow the shuttle to continue its journey using its main engines. Once the SRBs have burned out their fuel, they are jettisoned to prevent excess weight and drag during ascent.
A space shuttle typically uses about 1.5 million pounds of fuel during liftoff and ascent to reach orbit. In space, the shuttle relies on its orbital maneuvering system and reaction control system, which use smaller amounts of fuel for activities like adjusting its path and orientation in space.
The Space Shuttle used approximately 1.6 million pounds (800 tons) of solid rocket fuel during liftoff. This solid rocket fuel was primarily used in the twin solid rocket boosters that provided the initial thrust to launch the shuttle into space.
The space shuttle uses a combination of liquid hydrogen and liquid oxygen as fuel for its main engines during the ascent phase to reach orbit.
The fuel supply of a space shuttle typically lasts for about 8.5 minutes after liftoff. During this time, the shuttle uses up the liquid hydrogen fuel and liquid oxygen fuel to power its main engines for the initial ascent phase before they are jettisoned.
The Solid Rocket Boosters (SRBs) drop off the space shuttle to reduce weight and allow the shuttle to continue its journey using its main engines. Once the SRBs have burned out their fuel, they are jettisoned to prevent excess weight and drag during ascent.
A space shuttle typically uses about 1.5 million pounds of fuel during liftoff and ascent to reach orbit. In space, the shuttle relies on its orbital maneuvering system and reaction control system, which use smaller amounts of fuel for activities like adjusting its path and orientation in space.
The total weight of the shuttle decreases during the first 20 seconds of flight because the shuttle is burning fuel, which is released as exhaust gases. As fuel is burned, the weight of the shuttle decreases due to the loss of mass from the system.
The Space Shuttle used approximately 1.6 million pounds (800 tons) of solid rocket fuel during liftoff. This solid rocket fuel was primarily used in the twin solid rocket boosters that provided the initial thrust to launch the shuttle into space.
1. The orbiter itself. 2. Solid rocket boosters (SRBs) which provide the majority of thrust during launch and initial ascent. They are separated two minutes after launch, parachute back into the ocean and are re-used. 3. The External Fuel Tank (ET). This provides enough fuel for the three space shuttle main engines (SSMEs) to burn for eight minutes (the entire length of the ascent to orbit). The ET has three components: the liquid hydrogen tank, liquid oxygen tank, and an intertank which binds the two together. The ET is the only non-reusable component of the space shuttle. It is separated once the shuttle achieves orbit and burns up upon re-entry.
Space Shuttle Main Engines (SSME) are Rocketdyne RS-24 liquid-fuel rocket engines powered by liquid hydrogen and liquid oxygen. The Solid Rocket Boosters used during ascent are solid fuel rockets manufactured by Thiokol Corporation fueled by a mixture of ammonium perchlorate oxidizer, aluminum, an iron oxide catalyst and polymers as a binding agent.
During shuttle takeoff, the Solid Rocket Boosters detach and fall off the shuttle once they have expended their fuel. The boosters aid in propelling the shuttle into space at the start of its journey.
The orange object on the space shuttle is the external fuel tank. It contains the liquid hydrogen and liquid oxygen that are needed to fuel the shuttle's main engines during launch. Once the fuel is consumed, the tank is jettisoned and burns up in the atmosphere.
its weight decreases since most of that weight is fuel and is being burnt off to get lift
The Columbia shuttle was launched using the Space Shuttle system, which involved strapping the shuttle onto a rocket boosters and an external fuel tank. The boosters provided most of the thrust during liftoff, with the shuttle's main engines igniting once in space.