Who is pushing who in Newton's Third Law of Motion?

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Discussion Overview

The discussion revolves around the interpretation of Newton's Third Law of Motion in the context of rocket propulsion. Participants explore the relationship between the rocket and the exhaust gases, as well as the role of external forces such as gravity and air resistance during take-off.

Discussion Character

  • Exploratory
  • Debate/contested
  • Conceptual clarification

Main Points Raised

  • Some participants describe thrust as a result of hot gases being expelled downwards, which pushes the rocket upwards, relating this to Newton's Third Law.
  • There is a comparison made between the rocket's action and a person pushing against a wall, questioning the roles of the rocket and the gases.
  • One participant suggests that in the rocket scenario, the hot gases act as the wall while the rocket is akin to the person pushing against it.
  • Another participant raises the question of whether the Earth and the air beneath the rocket influence the action-reaction scenario, specifically if the interaction is solely between the rocket and the gases.
  • Some participants propose that the Earth does not affect the force between the rocket and the gases, but rather influences the force needed for the rocket to accelerate away from Earth.
  • A later reply suggests that either the rocket can be seen as pushing the gases or the gases as pushing the rocket, indicating a dual perspective on the action-reaction relationship.

Areas of Agreement / Disagreement

Participants express differing views on the role of the Earth and air in the action-reaction dynamics of rocket propulsion. While some agree that the Earth does not affect the force between the rocket and the gases, others question this assumption, indicating that multiple competing views remain.

Contextual Notes

There are unresolved questions regarding the influence of external forces, such as gravity and air resistance, on the rocket's propulsion and the interpretation of Newton's Third Law in this context.

Cliff Hanley
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I read this description of thrust on gcsescience.com;

"Hot gases are forced downwards through the rocket's jets
which pushes the body of the rocket upwards.This is an example of Newton's Third Law of Motion. "

I've learned already that Newton's 3rd law states that for every action there is an equal and opposite reaction, eg, when I push against a wall, the wall pushes against me (if it didn't I would end up pushing the wall away). I don't find this easy to grasp fully yet but it seems to make some sort of sense. But in the rocket example above, if I relate that to the example of me pushing against the wall, who is me and who is the wall?
 
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  1. Rockets take off by burning fuel. Burning fuel produces gas as a byproduct, which escapes the rocket with a lot of force. The force of the gas escaping provides enough thrust to power the rocket upwards and escape the the force of gravity pulling it back to Earth.
 
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The rocket and it's exhaust gases push against each other.
 
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Cliff Hanley said:
I
I've learned already that Newton's 3rd law states that for every action there is an equal and opposite reaction, eg, when I push against a wall, the wall pushes against me (if it didn't I would end up pushing the wall away).
Newton's third law says that even if you succeed in pushing the wall down, the force the wall exerts on your hands is still equal and opposite to the force of your hands on the wall.

In the case of the rocket, the hot gases are the wall. The rocket succeeds quite well in pushing the wall down and flinging the pieces far away.
 
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jbriggs444 said:
Newton's third law says that even if you succeed in pushing the wall down, the force the wall exerts on your hands is still equal and opposite to the force of your hands on the wall.

In the case of the rocket, the hot gases are the wall. The rocket succeeds quite well in pushing the wall down and flinging the pieces far away.
Thanks. So, if the hot gases are the wall, the rocket is me, yes? Does the Earth and the air beneath the rocket play no part in this action and equal and opposite reaction scenario; is it only between the rocket and the hot gases it expels?
 
russ_watters said:
The rocket and it's exhaust gases push against each other.
Is this similar to two roller skaters pushing each other away from one and another, ie, one of them being the rocket, the other the hot gases?
 
Cliff Hanley said:
Does the Earth and the air beneath the rocket play no part in this action and equal and opposite reaction scenario; is it only between the rocket and the hot gases it expels?
How , do you feel , would the Earth affect the force between the rocket and the gases ?

Also , air in space ? :biggrin:
 
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Post edited .
 
Qwertywerty said:
How do you feel , would the Earth affect the force between the rocket and the gases .

Also , air in space ? :biggrin:
My guess is that the Earth wouldn't affect the force between the rocket and the gases, it would only affect the force required to accelerate the rocket away from the Earth.
As for air in space; I was referring to take-off and the rocket's subsequent acceleration away from the Earth where there would be air beneath the rocket.
 
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Cliff Hanley said:
My guess is that the Earth wouldn't affect the force between the rocket and the gases, it would only affect the force required to accelerate the rocket away from the Earth.
That is correct on both counts. The Earth has no effect on the force between rocket and the exhaust gasses. It only affects the force between rocket and Earth.
 
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  • #11
jbriggs444 said:
That is correct on both counts. The Earth has no effect on the force between rocket and the exhaust gasses. It only affects the force between rocket and Earth.
Thanks.
 
  • #12
Cliff Hanley said:
n the rocket example above, if I relate that to the example of me pushing against the wall, who is me and who is the wall?
Either way works. Either you are the rocket pushing the gas (the wall) out the nozzle and you get thrown forward, or you are the gas being pushed out the nozzle and the rocket is the wall going forward.
 

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