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If the force of gravity acts on all bodies in proportion to their masses, why doesn't a heavy body fall correspondingly faster than a light body?
Most Upvoted Answer
If the force of gravity acts on all bodies in proportion to their mass...
see, there is an equation in the book, F=mg....i ('g'in the place of 'a' bcoz acceleration due to gravity in this case) and also that F=GMm/r^2 .....ii so from equation i and ii mg=GMm/r^2m gets cancelledtherefore, g= GM/r^2Here 'M' is the weight of earth and 'm' is of any object on earth.As u can c in the equation the m gets cancelled thus it is proved
Community Answer
If the force of gravity acts on all bodies in proportion to their mass...
sorry it's not weight it's mass and there is no theoretical answer to this
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If the force of gravity acts on all bodies in proportion to their masses, why doesn't a heavy body fall correspondingly faster than a light body?
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