How does rocket propulsion used by space shuttles work?

In summary, a rocket is propelled by ejecting exhaust gases, in accordance with the conservation of momentum.
  • #1
e-realmz
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Jet propulsion in space?

If space is "nothing" then how does rocket propulsion used by space shuttles work? What exactly do those blasts push off of?
 
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  • #2
e-realmz said:
If space is "nothing" then how does jet propulsion used by space shuttles work? What exactly do those blasts push off of?
I'm not sure what you mean.

What do the blasts "push off of" in an atmosphere? Nothing. When you burn propellant, you get an explosive reaction, the energy from which is directed out the nozzle. By conservation of momentum , if you have hot gas propelled backwards, something must be propelled forwards to conserve momentum. That something, is the rocket/shuttle.
 
  • #3
So you are saying that the rocket/shuttle is pushing off itself? I mean if you can't "swim" in space, then why can a rocket move in it? Can a person somehow push off himself to move in space?
 
  • #4
e-realmz said:
So you are saying that the rocket/shuttle is pushing off itself? I mean if you can't "swim" in space, then why can a rocket move in it? Can a person somehow push off himself to move in space?
Action and reaction are equal and opposite.

A lot of mass is ejected at high speed from the rocket engine; the force necessary to accelerate that mass reacts on the engine, pushing it 'forwards'. Push your brother and see what happens to you, - that is before he thumps you!

Garth
 
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  • #5
You can't swim in space becuase you're not pushing anything away from you. You can swim on Earth because you are pushing off of something but pushing off of something is not the only way to move. In fact, the water you push away is the same thing as the exhaust on a rocket! You're just pushing something away and the equal and opposite reaction pushes you off.
 
  • #6
If you were in space and you threw an object, the object would move, and so would you. That's how a rocket works except it expels gas rather than throwing an object.
 
  • #7
e-realmz said:
So you are saying that the rocket/shuttle is pushing off itself? I mean if you can't "swim" in space, then why can a rocket move in it? Can a person somehow push off himself to move in space?

Adding to what Garth and others mentioned, a rocket is not swimming in space. The exhaust moves in one direction, and the rocket moves in the opposite direction. It is conservation of momentum.

It would be analogous to some on skates throwing/pushing a mass, e.g. 10-20 kg. The skater would roll in the opposite direction. So in effect, the rocket is pushing against the propellant exhaust.

Space in not quite empty, there are still a few particles per cubic cm. One could deploy a solar sail and capture the light and particles from the sun. Again the momentum of the light/particles would be transferred to the craft.
 
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  • #8
Astronuc said:
Adding to what Garth and others mentioned, a rocket is not swimming in space. The exhaust moves in one direction, and the rocket moves in the opposite direction. It is conservation of momentum.

Right. Another way to put it is that a rocket isn't a moving system at all, but rather it's an expanding system... a controlled explosion (if you will) of energy and mass. The center of mass (including the exhaust) of a rocket essentially remains at the starting point.
 
  • #9
My understanding was on Earth a jet works by pushing against the atmoshere, in space i thought rockets worked mainly by directly pushing against the exhaust gases previously expelled. you learn something new everyday:)
 
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  • #10
ukmicky said:
My understanding was on Earth a jet works by pushing against the atmoshere, in space rockets work by mainly pushing against the exhaust gases previously already expelled.
Hopefully your (mis)understanding has now been corrected. Rockets are propelled by ejecting exhaust gases, in accordance with the conservation of momentum.

- Warren
 
  • #11
...and a jet engine need-not push against the atmosphere either. You could send a jet engine into space, pipe-in some air to the inlet, and it'd work just fine.
 
  • #12
To get a good idea of the principle on which rockets work (Newton's 3rd law btw) sit in a swivel chair and chuck a heavy object across the room (preferably not something prescious :tongue: )
 
  • #13
So I could push off a mass in space and I would move. If I pushed off a mass a lot smaller than me, would I still move? If I tied a rope to an object, pushed off it and pulled the rope, would it come to me or would I it?
 
  • #14
If you push off an object smaller, you'd still move - just not as fast as the object you push off of (which is why rocket exhaust gasses move very fast). If you tied a rope to it, and pulled-back, you'd meet it where you started.
 
  • #15
ukmicky said:
My understanding was on Earth a jet works by pushing against the atmoshere, in space i thought rockets worked mainly by directly pushing against the exhaust gases previously expelled. you learn something new everyday:)
The air in the atmosphere provides the oxidant for the fuel. The thrust is still provided by the expanding hot gas blasting out the back, as well as the thrust provided by the fan/compressor. The thrust is not due to pushing on/against the atmosphere.
 
  • #16
Astronuc said:
The air in the atmosphere provides the oxidant for the fuel. The thrust is still provided by the expanding hot gas blasting out the back, as well as the thrust provided by the fan/compressor. The thrust is not due to pushing on/against the atmosphere.

Thankyou to everyone

Astronuc last question

The atmosphere must create some form of resistance against the hot gases coming out of the jet engine. and i would have thought any form of resistance against the flow of gases coming out of the engine would result in the plane being pushed if you get what i mean.
 
  • #17
ukmicky said:
Thankyou to everyone

Astronuc last question

The atmosphere must create some form of resistance against the hot gases coming out of the jet engine. and i would have thought any form of resistance against the flow of gases coming out of the engine would result in the plane being pushed if you get what i mean.

In terms of a rocket engine operating in the atmosphere lowers the efficiency of the engine.
And in this I don't just mean due to the friction of moving through the air, but that the actual thrust produced by the engine will decrease.
 
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  • #18
...because, as said before, the thrust comes from the action-reaction of the acceleration/velocity of the exhaust gases. Increasing the pressure behind the engine decreases the amount those gases can accelerate when coming out of the nozzle.
 
  • #19
Upon reading all the replies in this thread, I've come to a new understaing of "rocket science". (Thanks everyone) And like always, the new understanding leads me to new questions.

So if something expands, it does so by "pushing" away from a center point. Say a shuttle wanted to travel forward. I gives off a burst of thrust to get it going. The shuttle has [x] amount of mass. Would the rocket also have to eject [x] amount of mass to move?
 
  • #20
No - it's conservation of momentum. If you stand on a skateboard and push against another person, half your weight and also standing on a skateboard, they will move at twice the speed you do.

m1*v1=m2*v2
 
  • #21
Thank you and i am learning
 
  • #22
ukmicky said:
Thankyou to everyone

Astronuc last question

The atmosphere must create some form of resistance against the hot gases coming out of the jet engine. and i would have thought any form of resistance against the flow of gases coming out of the engine would result in the plane being pushed if you get what i mean.

Actually rocket performance is degraded in the atmosphere precisely because having that pressure, reduces the pressure drop across the nozzle. Rocket motors actually perform better in space!

See - http://www.grc.nasa.gov/WWW/K-12/airplane/bgp.html

http://www.grc.nasa.gov/WWW/K-12/airplane/rocket.html

http://www.grc.nasa.gov/WWW/K-12/airplane/ramth.html - how a ramjet works

http://exploration.grc.nasa.gov/education/rocket/shortr.html - everything basic with regard to rocket propulsion.
 

1. How does rocket propulsion work?

Rocket propulsion works by utilizing Newton's third law of motion, which states that for every action, there is an equal and opposite reaction. In the case of a rocket, the action is the burning of fuel and the release of hot gases, which creates a force in the opposite direction and propels the rocket forward.

2. What type of fuel is used in rocket propulsion?

Most rockets use a combination of liquid hydrogen and liquid oxygen as fuel, which create a powerful chemical reaction when ignited. This mixture is also known as cryogenic propellants due to their extremely low temperature requirements.

3. How is thrust generated in rocket propulsion?

Thrust is generated by the hot gases exiting the rocket engine at high speeds. This creates a force in the opposite direction, propelling the rocket forward. The amount of thrust produced depends on the mass and velocity of the exhaust gases.

4. What are the different types of rocket propulsion?

There are two main types of rocket propulsion: chemical and electric. Chemical propulsion, as mentioned before, uses a chemical reaction to create thrust. Electric propulsion, on the other hand, uses electricity to accelerate ions or plasma, resulting in thrust.

5. How is rocket propulsion used in space shuttles?

Space shuttles use a combination of solid rocket boosters and liquid fuel engines for propulsion. The solid rocket boosters provide initial thrust at liftoff, and the liquid fuel engines continue to propel the shuttle into orbit. Once in orbit, the shuttle uses its thrusters for maneuvering and adjusting its trajectory.

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