Newton's Third is Giving Me a Problem That is Absurd

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Discussion Overview

The discussion revolves around the application of Newton's Third Law of Motion in the context of a rocket pushing an object in space. Participants explore the implications of force interactions between the rocket, the object, and the exhaust fuel, examining the resulting accelerations and forces involved.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • One participant questions why the rocket does not slow down when it pushes the object with a force, suggesting a misunderstanding of the forces at play.
  • Another participant clarifies that the rocket's propulsion involves additional forces from the exhaust fuel, which are not accounted for in the initial reasoning.
  • Some participants argue that the forces between the rocket and the object do not cancel out because they act on different bodies, emphasizing the importance of considering all forces acting on the rocket.
  • There is a discussion about the net forces acting on the rocket, with some suggesting that the force from the exhaust fuel must be greater than the force exerted by the object for the rocket to accelerate.
  • A hypothetical scenario is presented where both the rocket and object have equal masses, leading to calculations of acceleration and forces between them.
  • Some participants express confusion about the application of Newton's Third Law and the concept of force pairs, leading to further clarifications and examples.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the initial misunderstanding of forces, but there is a general agreement on the importance of distinguishing between different force interactions. The discussion remains somewhat unresolved as participants continue to explore the implications of their reasoning.

Contextual Notes

Participants highlight the potential confusion surrounding Newton's Third Law and the interaction of forces, particularly in the context of multiple bodies and their respective accelerations. The discussion reveals a need for clarity regarding the roles of different forces in the system.

Who May Find This Useful

This discussion may be useful for students and individuals interested in understanding Newton's laws of motion, particularly in complex scenarios involving multiple interacting bodies and forces.

Pupil
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Suppose there's a rocket in space with a mas m, and an object also with mass m. Now suppose the rocket turns on and pushes the object with a constant force F. The object would then have an acceleration a. By Newton's Third Law the object pushes back with a force -F. So shouldn't the rocket have a negative acceleration (-a) and thus eventually slow to a stop? But what happens in reality is the rocket pushes the object faster and faster. I must be missing something fundamental here. Set me straight so I can stop thinking about this friggin' thing in the shower. Thanks.
 
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All Newton's 3rd law says is that if the rocket exerts a force on the object, then the object will exert an equal and opposite force on the rocket. Of course that's not the only force on the rocket--it's also blasting out hot fuel, which provides another force. (Otherwise, it would be more like a rock than a rocket. :wink:)
 
Doc Al said:
All Newton's 3rd law says is that if the rocket exerts a force on the object, then the object will exert an equal and opposite force on the rocket. Of course that's not the only force on the rocket--it's also blasting out hot fuel, which provides another force. (Otherwise, it would be more like a rock than a rocket. :wink:)

But won't this blasting rocket fuel acting on the rocket be canceled out by the force the object exerts in the opposite direction on the rocket since Newton says the forces are equal in magnitude and opposite? Thus the rocket's net force is 0, and there will be no acceleration? I hear this is a problem a lot of beginning physics students make, but I don't see how saying the forces are acting on opposite objects solves the problem. I am confused. :(
 
No. There are three forces involved here- The force the rocket blast applies to the rocket, the force the rocket applies to the mass, and the force the mass applies to the rocket. Yes, the last two cancel. Which means that the whole assembly accelerates at a= F/2m.
 
HallsofIvy said:
No. There are three forces involved here- The force the rocket blast applies to the rocket, the force the rocket applies to the mass, and the force the mass applies to the rocket. Yes, the last two cancel. Which means that the whole assembly accelerates at a= F/2m.

But isn't the force of the rocket blast the force that acts on the object?
 
Pupil said:
But won't this blasting rocket fuel acting on the rocket be canceled out by the force the object exerts in the opposite direction on the rocket since Newton says the forces are equal in magnitude and opposite?
Nope. You are mixing up the 3rd law force pairs. The force the exhaust fuel exerts on the rocket is equal and opposite to the force that the rocket exerts on the fuel. But that force has nothing to do with the force between the object and the rocket--that's a totally different force.
Thus the rocket's net force is 0, and there will be no acceleration?
The net force on the rocket is the sum of (1) the force of the object on the rocket and (2) the force of the exhaust fuel on the rocket. No reason to think that these cancel out. One hopes that (2) is much greater than (1).
I hear this is a problem a lot of beginning physics students make, but I don't see how saying the forces are acting on opposite objects solves the problem.
In my experience, the main confusion is thinking that the "equal and opposite" forces from Newton's 3rd law somehow cancel out. But they can't: They act on different bodies!

Read this: https://www.physicsforums.com/showthread.php?t=90060
 
Pupil said:
But isn't the force of the rocket blast the force that acts on the object?
Nope. The exhaust pushes on the rocket; the rocket pushes on the object. Two different forces.

Imagine this similar situation. A frictionless table with two blocks sitting side by side. You push one block into the other. You push block A. Block A pushes block B. Ah... but Newton's 3rd law says that block B must push back on A with the same force. Yes! Does that mean it "cancels out" and nothing moves? No! You push on block A and block B pushes on block A--the net force determines how block A accelerates. (Hint: Your push is greater than block B's push.)
 
Doc Al said:
Nope. You are mixing up the 3rd law force pairs. The force the exhaust fuel exerts on the rocket is equal and opposite to the force that the rocket exerts on the fuel. But that force has nothing to do with the force between the object and the rocket--that's a totally different force.

The net force on the rocket is the sum of (1) the force of the object on the rocket and (2) the force of the exhaust fuel on the rocket. No reason to think that these cancel out. One hopes that (2) is much greater than (1).

In my experience, the main confusion is thinking that the "equal and opposite" forces from Newton's 3rd law somehow cancel out. But they can't: They act on different bodies!

Read this: https://www.physicsforums.com/showthread.php?t=90060

Okay, I think I'm getting it. So say the object and rocket both have 10 kg masses, and the blaster exerts a force of 20 N on the rocket. How would you find the force the object and rocket exert on each other?
 
Actually, I think I know how. Fnet = MsAs ---> 20 N = 20kg*a ----> a = 1 m/s. So the rocket moves at 1 m/s, then the sum of the forces on the rocket Frocket = Fblaster + Fobj ---> 1m/s*10kg = 20N + Fobj, so Fobj is -10 N?
 
  • #10
Pupil said:
Okay, I think I'm getting it. So say the object and rocket both have 10 kg masses, and the blaster exerts a force of 20 N on the rocket. How would you find the force the object and rocket exert on each other?

Good question!
All you have to know is f=ma.

The fuel is pushing the rocket, which is pushing the object. Since the object and the rocket are always moving in sync, we can pretend that, instead of two 10 kg masses, they are one 20 kg mass. We can do this to find the acceleration of the whole system. f=ma. 20N=20kg*a, so "a"=1 m/s^2

Now, break it back into two objects. It's okay, we can do that. We're physicists.

The force pushing the whole system is 20N, but the force that is pushing just the object doesn't come from the fuel. It comes from the rocket.
Now, we know the mass and the acceleration of the object being pushed. f=ma, again. f=10kg*1m/s^2 so f=10N.

AKA, the force of the rocket on the object is 10N.

Newton's law says that that means that there is a force of 10N from the object back to the rocket.

Did this make sense?
 
  • #11
Indeed, I believe I understand quite well now. Thanks for all the help guys.
 

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