(C) The variation of acceleration due to gravity $g$ with distance $r$ from the center of the Earth is given by:$1$. For $r < R$ (inside the Earth): $

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(C) The variation of acceleration due to gravity $g$ with distance $r$ from the center of the Earth is given by:$1$. For $r $2$. At $r = 0$ (center of the Earth): $g = 0$. Thus, statement $(c)$ is true.$3$. For $r > R$ (outside the Earth): $g_{out} = \frac{GM}{r^2}$. Thus, $g$ decreases as $r$ increases. Therefore, statement $(a)$ is true.$4$. The effective acceleration due to gravity at the equator is $g' = g - \omega^2 R$. If the Earth stops rotating $(\omega = 0)$, then $g' = g$. Since $g - \omega^2 R Conclusion: Statements $(a)$ and $(c)$ are true.

Class 11 Physics Gravitation Acceleration Due to Gravity and its Variation

Medium

Which of the following statements are true about the acceleration due to gravity of the Earth (where $r$ is the distance from the center of the Earth and $R$ is the radius of the Earth)?
$(a)$ $g$ decreases when moving away from the center, if $r > R$.
$(b)$ $g$ decreases when moving away from the center, if $r < R$.
$(c)$ $g$ is zero at the center of the Earth.
$(d)$ $g$ at the equator decreases, if the Earth stops rotating about its axis.

A
$(a) \& \ (b)$
B
$(a), (b) \& \ (c)$
C
$(a) \& \ (c)$
D
$(a), (b), (c) \& \ (d)$

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Gravitation

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Acceleration Due to Gravity and its Variation

$A$ body weighs $48 \ N$ on the surface of the earth. The gravitational force experienced by the body due to the earth at a height equal to one-third the radius of the earth from its surface is (in $N$)

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Two planets $A$ and $B$ have densities $\varrho_1$ and $\varrho_2$ and have radii $r_1$ and $r_2$ respectively. The ratio of acceleration due to gravity on $A$ to that of $B$ is:

EasyMHT CET 2025

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The acceleration due to gravity on a planet is $1.96 \, m/s^2$. If it is safe to jump from a height of $3 \, m$ on the Earth,the corresponding height on the planet will be ........ $m$.

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If the density of a small planet is the same as that of earth, while the radius of the planet is $0.2$ times that of the earth, the gravitational acceleration on the surface of that planet is (in $\,g$)

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The rotation of the Earth (of radius $R$) about its axis speeds up to a value such that a man at latitude angle $45^{\circ}$ feels weightlessness. The duration of a day in such a case is

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$A$ body weighs $48 \ N$ on the surface of the earth. The gravitational force experienced by the body due to the earth at a height equal to one-third the radius of the earth from its surface is (in $N$)

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