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Homework Help Overview

The problem involves two bodies of masses M1 and M2 resting on a frictionless surface, which are pushed with a force F. The original poster seeks to understand how the force between the bodies is determined, given that they accelerate towards the other end.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster expresses confusion about arriving at the provided answer using the equation of gravitational force. Some participants suggest using a free-body diagram to analyze the forces and accelerations acting on the masses.

Discussion Status

Participants are exploring the problem through free-body diagrams and discussing the relationship between the forces and accelerations of the two masses. Some guidance has been offered regarding the equations to consider, but no consensus has been reached on the final approach.

Contextual Notes

The discussion includes a note that the problem may be of a grade 11 level, indicating a potential educational context. There is also mention of the need to avoid using Newton's Law of Universal Gravitation in this scenario.

johsun123
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Homework Statement



Two bodies of masses M1& M2 resting on frictionless surface. Bodies touch each other without any friction.
What will be the force between the bodies, If they are pushed from one end with force F and both are accelerating towards other end?
Answer given is (M2 x F)/(M1+M2).
How is it arrived at?

Homework Equations



F= G M1XM2/ distance squared

The Attempt at a Solution



I am stumped. I cannot arrive at this with above equation.
 
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You really need to draw a diagram with the forces and accelerations to solve this one - a free-body diagram.
 
You shouldn't be using Newton's Law of Universal Gravitation here.

When you draw a free body diagram of M1, you'll recognize that there is a resisting force (f) on it from the other mass.

1)

ƩFx = M1a

F - f = M1aThen draw a free body diagram of M2, which has no resisting force.

2)

ƩFx = M2a

F = M2a

You should understand the fact that both masses will have the same acceleration.

Knowing that detail, you can manipulate your equations in order to solve for the missing force "f."

Start by solving the 2nd equation for acceleration:

a = F/M2

Plug that back into the 1st equation and you should have:

f = FM2/(M1+M2)
 
Thank you. It was bugging me.

It looks like a grade 11 question to me.
 

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