Why Does Kinetic Energy Increase When Mass Falls Towards Earth?

AI Thread Summary
When a mass falls towards Earth, its gravitational potential energy decreases while its kinetic energy increases, illustrating the conservation of energy principle. The potential energy of the Earth-mass system decreases, and if a "worker" is involved, some energy may be transformed into work rather than purely kinetic energy. In free fall, the kinetic energy equals the potential energy lost, as no external work is done. However, if the falling mass does work, some potential energy is converted into that work, resulting in a smaller increase in kinetic energy. Overall, energy is conserved throughout the process, regardless of whether work is done by an external "worker."
Miraj Kayastha
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" The potential energy U is equal to the work you must do against that force to move an object from the U=0 reference point to the position r. The force you must exert to move it must be equal but oppositely directed."

The above definition is from hyperphysics.

U = -GMm/R

According to the above definition, potential energy of the earth-mass system decreases and the potential energy of the worker increases, when a mass if falling towards earth.

Then why does kinetic energy increase on falling if the energy is conserved?
 
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Does your in-falling mass do any work? Is there a "worker" whose potential energy somehow increases?
If so is the kinetic energy really increasing?

These are the questions you have to ask for answering this.

A falling mass can be that of an old pendulum clock. Which had a couple of unbalanced masses that drove the whole system. The bigger mass drops towards the ground decreasing it's potential energy. The Clock mechanism uses that energy to do work (it's rotation, friction etc.). All in all the mass will move at a very slow constant speed, having a very small portion of it's initial potential energy transformed into real kinetic energy.
This would be the case for a falling mass that does work, it's potential does not go completely into kinetic.
 
Miraj Kayastha said:
According to the above definition, potential energy of the earth-mass system decreases and the potential energy of the worker increases, when a mass if falling towards earth.
When a mass falls to the Earth the only force acting is gravity. The gravitational potential energy decreases and the kinetic energy increases.

Then why does kinetic energy increase on falling if the energy is conserved?
To conserve energy!
 
When you say "the potential energy of the worker", that does not have meaning. The worker just does work. He is not the one gaining or losing potential energy, unless he is also the object being worked on.
 
So the worker gains energy but the total mechanical energy is not conserved?
 
Last edited:
Miraj Kayastha said:
But the definition tells the work done against the force of gravity, so something other than the Earth is doing work
No, that's just how you can define the potential at a given point. Once it's defined--you have the formula describing it--you no longer need that imaginary worker exerting a force.
 
Miraj Kayastha said:
So the worker gains energy but the total mechanical energy is not conserved?
In the case of the falling mass there is no external "worker".
 
Miraj Kayastha said:
So the worker gains energy but the total mechanical energy is not conserved?

There are two cases and I don't know which you refer to.
1. Epotential=Ekinetic (free-falling mass no work done on a "worker" whatsoever)
2. Epotential=Ekinetic+Uwork (some energy is is transformed into the work of the "worker")

While in case 2 there is still some kinetic energy it is smaller by exactly the amount of work that has been done. The mass will move slower. Of course both potential energies are the same.
So energy is conserved.
 

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