Why Do Equal Forces on Different Masses Result in the Same Height?

AI Thread Summary
When two objects of different masses are propelled by the same force from a spring, they rise to the same height due to the conservation of energy principle. Although the upward acceleration of the lighter object is greater, the gravitational force acting on both objects is proportional to their mass, balancing the forces. The energy stored in the spring is equally distributed to both objects, resulting in identical potential energy at their peak heights. As they leave the spring, both objects maintain equal speeds, ensuring they reach the same height despite their mass differences. This demonstrates that equal forces can yield the same height for different masses when energy conservation is considered.
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Homework Statement



Object A and B are placed on a spring. Object A has twice as much mass as object B. If the spring is depressed and released, propelling the objects into air, object A will:

answer: rise to the same height as object B

Homework Equations





The Attempt at a Solution



Based on my reasoning and math, I am confused why both objects would rise to the same height:

The force on both objects is the same, F. And 2*mass of B = mass of A

F = (mass of A)*(accl. A) = (mass of B)*(accl. B)
F = 2*(mass of B)*(accl. A) = (mass of B)*(accl. B)

cancel out (mass of B):
F = 2*(accl. A) = (accl. B)

Since the upward acceleration of B is twice the that of A, why would the height be the same?
 
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I've only briefly thought about your attempt:

You are only considering the upward forces due to the spring.

What about the force on each object due to gravity... will it be the same?

Consider...
 
Last edited:
I think the simplest way to do this problem is to use "conservation of energy". The spring has a specific amount of energy stored in it when compressed and, on release gives the same energy to A and B. They will rise to heights that give the same potential energy to both.
 
any one know how to approach this problem?
 
As the spring moves up A and B are pushed up with at all times equal speeds and their speeds are also equal when they lose contact with the spring.Take it from there.
 

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