Question

Show with the help of an experiment that acceleration of a freely falling body does not depend on the mass of falling body .

Answer 1

yes it doesn't depends upon the mass of the body it freely fall due to gravity

Answer 2

Acceleration

Introduction:

The rate of change of an object's velocity with respect to time is called acceleration in mechanics. Accelerations are quantities that are measured in vectors.

Formula:

$a=\frac{v-v_{0} }{t}$

$a=$ average acceleration

$v=$final velocity

$v_{0}=$ starting velocity

$t=$ elapsed time

Explanation:

Let a body of mass $m$ freely falling from height $h$ then gravitational force on body

$\mathrm{F}=\frac{\mathrm{GM}_{\mathrm{e}} \mathrm{m}}{(\mathrm{R}+\mathrm{h})^{2}}$

where $\mathrm{M}_{\mathrm{e}}=$ mass of earth

$\mathrm{R}=$Radius of earth

all acceleration of body

$\frac{F}{m} =\frac{GM_{e} }{(R+h)^{2} }$

$\frac{F}{m} =a$, by Newton's second law

Hence, acceleration of freely falling body does depend on mass of body.

To know more about Newton's law of motion, here

https://brainly.in/question/13869?msp_poc_exp=2

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