The Space Shuttle System is made up of three parts:
* the orbiter (usually called the Shuttle) -- which is the airplane looking thing that the astronauts are in and which goes into space and returns. * the Solid Rocket Boosters (SRBs) -- the two pointed white tubular rockets of each side during launch and dropped off after launch
* the External Tank -- the big orange tank the Shuttle sits on during launch and is full of liquid fuel. It is also dropped off before the orbiter goes into space
Three different fuels are used -- two during launch and ascent (the trip through the atmosphere to space)
If you are asking specifically about the orbiter spacecraft after it is in space, it burns hydrazine with oxygen to move around in orbit and to position itself for returning to earth .
The SRBs use solid propellant that is a mixture of aluminum and ammonium perchlorate.
The orbiter has three main engines that are used during launch and ascent. These engines burn hydrogen and oxygen from the External Tank.
The most common fuel used in spaceships is liquid hydrogen, which is combined with liquid oxygen in rocket engines to produce thrust. Some spacecraft also use solid rocket propellant, such as those in booster rockets. Additionally, ion thrusters utilize xenon or other inert gases as propellant for long-duration space missions.
Yes, a spaceship will eventually run out of fuel if it does not have a way to refuel in space. Once the fuel is depleted, the spaceship will no longer be able to accelerate or maneuver effectively.
A spaceship can use different types of fuel depending on its design and mission requirements. Common propellants include liquid hydrogen, kerosene, and solid rocket fuel. Some advanced spacecraft may use ion propulsion systems that use xenon gas as fuel.
You can refuel your spaceship at designated refueling stations located in spaceports or on planets with the necessary facilities. Make sure to check your spaceship's fuel capacity and the availability of fuel resources at your destination before embarking on a long journey.
I like to study about the inside of a spaceship, and how its built.
The speed of a spaceship is typically limited by the propulsion system it uses. Most spacecraft rely on fuel to generate thrust, so the speed is constrained by the amount of fuel available. To conserve fuel, spacecraft often use efficient propulsion systems like ion thrusters or solar sails, which can achieve high speeds over time without excessive fuel consumption. Ultimately, the achievable speed of a spaceship depends on the specific design and mission requirements.
the dung
Yes, a spaceship will eventually run out of fuel if it does not have a way to refuel in space. Once the fuel is depleted, the spaceship will no longer be able to accelerate or maneuver effectively.
A spaceship can use different types of fuel depending on its design and mission requirements. Common propellants include liquid hydrogen, kerosene, and solid rocket fuel. Some advanced spacecraft may use ion propulsion systems that use xenon gas as fuel.
I would presume it would be chemical energy from burning fuel
with the manure
You have to fix the broken pipe on the spaceship by dragging the fuel rod onto it.
Newton's third law of motion allows a spaceship to accelerate by burning rocket fuel. As the fuel is burned and expelled as exhaust, the spaceship experiences an equal and opposite reaction force, propelling it forward. This process allows the spaceship to accelerate in the vacuum of space where there is no air resistance.
It gets the fuel rod for the spaceship
YOU HIT THE RIGHT TRIGGER WHEN IT IS EQUIPPED You also want to aim up a little at far distances because the fuel rods drop after a while.
you get the fuel from the robot in the dungeon it will blowup then a green fuel will jump out you click the owl then the fuel the owl will get it for you . Then go to the spaceship in the mud .That's what I'm stuck on.
He helps you het the spaceship fuel in the dungeon.
i watched as a Nasa spaceship took off The astronauts boarded the spaceship in anticipation of the takeoff.