Class 9 Science GRAVITATION Mix Example - GRAVITATION

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$(i)$ Is the acceleration due to gravity of earth '$g$' always a constant at every place? Discuss.
$(ii)$ During a free fall,will heavier objects accelerate more than lighter ones? Give reason for your answer.

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(N/A) $(i)$ We know $g = \frac{GM}{R^2}$. Thus,on the surface of the earth and very close to the surface,'$R$' (i.e.,the radius of the earth) remains constant; hence,'$g$' will be constant. However,at distances far away from the surface of the earth,when '$R$' changes,the value of '$g$' will no longer remain constant.
$(ii)$ No,during a free fall,all objects fall with the same acceleration because '$g$' is independent of the mass of the falling body. The value of '$g$' is approximately $9.8 \, m/s^2$.

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Mix Example - GRAVITATION

Show that if the earth attracts two bodies $A$ and $B$ placed at the same distance from the centre of the earth with the same force,then their masses are equal.

Easy

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When dropped from the same height,a body reaches the ground quicker at the poles than at the equator. Why?

Medium

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$A$ ball thrown up vertically returns to the thrower after $6 \, s$. Find:
$(a)$ The velocity with which it was thrown up.
$(b)$ The maximum height attained. (Take $g = 9.8 \, m s^{-2}$)

Medium

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Define the "universal law of gravitation".

Easy

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What is the nature of motion of an object falling freely under the action of gravity?

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$(i)$ Is the acceleration due to gravity of earth '$g$' always a constant at every place? Discuss.$(ii)$ During a free fall,will heavier objects accelerate more than lighter ones? Give reason for your answer.

Similar Questions

Show that if the earth attracts two bodies $A$ and $B$ placed at the same distance from the centre of the earth with the same force,then their masses are equal.

When dropped from the same height,a body reaches the ground quicker at the poles than at the equator. Why?

$A$ ball thrown up vertically returns to the thrower after $6 \, s$. Find:$(a)$ The velocity with which it was thrown up.$(b)$ The maximum height attained. (Take $g = 9.8 \, m s^{-2}$)

Define the "universal law of gravitation".

What is the nature of motion of an object falling freely under the action of gravity?

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$(i)$ Is the acceleration due to gravity of earth '$g$' always a constant at every place? Discuss.
$(ii)$ During a free fall,will heavier objects accelerate more than lighter ones? Give reason for your answer.

$A$ ball thrown up vertically returns to the thrower after $6 \, s$. Find:
$(a)$ The velocity with which it was thrown up.
$(b)$ The maximum height attained. (Take $g = 9.8 \, m s^{-2}$)