Prove that the acceleration due to gravity is independent to the mass of the falling body.

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asked Oct 14, 2022 106k views

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Sahil Dhankhar · Answer 1 · 2022-10-20T06:46:57+0000

Answer:

½mv²=mgh

g=½(V²/h)

Step-by-step explanation:

When an object is held at a height, it posses gravitational potential energy which is mgh, where m= mass, h=height, g=acceleration due gravity

When the object is dropped, the potential energy will be converted to kinetic energy which is ½mv², where V=velocity at which the object moves.

V=∆h/t, ∆h is change in height with respect to time.

½mv²=mgh

Mass cancel out,

g=v²/2h

This implies that g does not depend or is not affected by mass. Hence heavy object and light object will reach the ground at the same time when dropped from the same height. When air resistance is negligible.

Prove that the acceleration due to gravity is independent to the mass of the falling body.

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Prove that the acceleration due to gravity is independent to the mass of the falling body.​

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Prove that the acceleration due to gravity is independent to the mass of the falling body.