It gives the initial boost to get the rocket off the ground, as the fuel burns up it empties the stage, so to get it into space the first stage ejected to lighten the load and the second stage ignites. and so on. This is an almost out dated system, but occasionally it is still used.
I'm sure you're asking about the parts that hold the fuel for takeoff and travel. If that's what you're referring to, they burn up in the atmosphere before any remnants of it can return to Earth.
A single stage fires an engine only once.
A multi-stage has many engines which fire sequentially through the flight. i.e. At the start, not all engines are going. After a certain altitude is achieved, the first engines stop and a second set fire.
The first stage of a multistage rocket accelerates the rocket from rest (on the launch pad), up to several thousand miles per hour. It's where the rocket receives the most acceleration. The important thing is to give the rocket as much speed as quickly as possible, so that it can safely and efficiently escape the earths gravity. The first stage, therefore, carries the most fuel. Once this has been consumed, the empty first stage falls away from the rocket as the second stage fires.
it is dropped off the rocket and either burns in the atmosphere or lands in the ocean
As the propellant gets used up, the unused mass can be jettisoned, making the rocket lighter. Which allows it to travel further.
Because it's moving a smaller mass. The first stage of the rocket has to move the whole vehicle. By the time you're ready to fly on the third-stage engines, you've burned up the fuel in the first two stages and separated from them.
If things work as planned, the first stage uses up its fuel, and falls away, while the engines of the second stage ignite and push the rocket into a higher trajectory. This point in the launch sequence is called (predictably enough!) "staging", and it is at this point that things generally go terribly wrong if they are going to. You rarely hear of a rocket in which the second stage works properly and then the THIRD stage fails. When the fuel of the second stage is exhausted, then it, too, falls away while the third stage pushes the rocket into its final orbit, or off into the solar system. This "stages falling away" part is why the USA launches its rockets from Cape Canaveral in Florida; the discarded stages fall harmlessly into the Atlantic Ocean.
Nothing
It is making two products. it reduces the O2 gas.
Ok if: X is the time rocket 1 burns Y is the time rocket 2 burns If stage 1 burns 28 seconds longer than stage 2 X = Y + 28 If the total for both stages is 152 seconds X + Y = 152 We can substitute Y + 28 where we see X Y + 28 + Y = 152 2 Y = 152 - 28 2 Y = 124 Y = 62 Then we can substitute 62 into where there is a Y X + 62 = 152 X = 152 - 62 X = 90 So statge 1 (X) is 90 seconds and stage 2 (Y) is 62 seconds
The first stage is jettisoned, to fall back to earth, as the fuel runs out.
a multistage rocket is a rocket. a rocket could be a multistage rocket. all multi-stage rockets are rockets, but not all rockets are multi-stage. For example the space misstions. They are all multi staged, but each stage is a rocket on its own.
MULTISTAGE rocket ENGINES have MORE than A single STAGE and ARE more EFFICIENT in ACCELERATING the ROCKET................
The payload (the important stuff) in a multistage rocket is carried in the last stage. The earlier stages are there only for the purpose of boosting the last stage on its way. When each earlier stage is out of fuel, it separates and falls back to Earth.
A multistage rocket usually has 3 stages or sections.
A single stage rocket consists of only a single set of rocket engines and fuel containers. This assembly is used for the entire journey. A multistage rocket consists of several sets of engines and fuel containers that are used in succession. When the fuel of one stage is spent it detaches from the rocket to get rid of the weight and the next set of engines is ignited. Multistage rockets are far more efficient at getting things into space.
Because it's moving a smaller mass. The first stage of the rocket has to move the whole vehicle. By the time you're ready to fly on the third-stage engines, you've burned up the fuel in the first two stages and separated from them.
The lunar Vehicle is what makes it to the Final Fronter
Because it's moving a smaller mass. The first stage of the rocket has to move the whole vehicle. By the time you're ready to fly on the third-stage engines, you've burned up the fuel in the first two stages and separated from them.
If things work as planned, the first stage uses up its fuel, and falls away, while the engines of the second stage ignite and push the rocket into a higher trajectory. This point in the launch sequence is called (predictably enough!) "staging", and it is at this point that things generally go terribly wrong if they are going to. You rarely hear of a rocket in which the second stage works properly and then the THIRD stage fails. When the fuel of the second stage is exhausted, then it, too, falls away while the third stage pushes the rocket into its final orbit, or off into the solar system. This "stages falling away" part is why the USA launches its rockets from Cape Canaveral in Florida; the discarded stages fall harmlessly into the Atlantic Ocean.
The first stage is jettisoned, to fall back to earth, as the fuel runs out.
A multistage amplifier is composed of several single stage amplifiers.