(C) The acceleration due to gravity $g$ on the surface of the Earth is given by $g = \frac{GM}{R^2}$.$(1)$ The value of $g$ is maximum at the poles be

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(C) The acceleration due to gravity $g$ on the surface of the Earth is given by $g = \frac{GM}{R^2}$.$(1)$ The value of $g$ is maximum at the poles because the radius of the Earth $R$ is minimum at the poles $(R_{pole} $(2)$ The value of $g$ is minimum at the equator because the radius of the Earth $R$ is maximum at the equator.$(3)$ The value of $g$ is zero at the center of the Earth because the mass of the Earth enclosed within a sphere of radius $r$ becomes zero as $r \to 0$.Therefore,the correct matching is $(1-b), (2-c), (3-a)$.

Class 11 Physics Gravitation Acceleration Due to Gravity and its Variation

Medium

Match Column-$I$ with Column-$II$.

Column-$I$ Column-$II$

$(1)$ Maximum value of acceleration due to gravity $g$ $(a)$ At the center of the Earth

$(2)$ Minimum value of acceleration due to gravity $g$ $(b)$ At the poles

$(3)$ Zero value of acceleration due to gravity $g$ $(c)$ At the equator

A
$(1-a), (2-c), (3-b)$
B
$(1-c), (2-b), (3-a)$
C
$(1-b), (2-c), (3-a)$
D
$(1-a), (2-b), (3-c)$

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Gravitation

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Acceleration Due to Gravity and its Variation

If the acceleration due to gravity experienced by a point mass at a height $h$ above the surface of the Earth is the same as the acceleration due to gravity at a depth $d = \alpha h$ $(h \ll R_{e})$ from the Earth's surface,then the value of $\alpha$ will be: (use $R_{e} = 6400 \ km$)

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The dependence of acceleration due to gravity $g$ on the distance $r$ from the centre of the earth,assumed to be a sphere of radius $R$ of uniform density,is as shown in the figure below. The correct figure is:

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Suppose a vertical tunnel is dug along the diameter of the Earth,which is assumed to be a sphere of uniform mass having density $\rho$. If a body of mass $m$ is dropped into this tunnel,its acceleration at a distance $y$ from the center is given by

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What is the height from the surface of earth,where acceleration due to gravity will be $\frac{1}{4}$ of that of the earth (in $km$)? $(R_E = 6400 \ km)$

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Suppose that the angular velocity of rotation of the earth is increased. Then,as a consequence:

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Column-$I$	Column-$II$
$(1)$ Maximum value of acceleration due to gravity $g$	$(a)$ At the center of the Earth
$(2)$ Minimum value of acceleration due to gravity $g$	$(b)$ At the poles
$(3)$ Zero value of acceleration due to gravity $g$	$(c)$ At the equator

Match Column-$I$ with Column-$II$. Column-$I$ Column-$II$ $(1)$ Maximum value of acceleration due to gravity $g$ $(a)$ At the center of the Earth $(2)$ Minimum value of acceleration due to gravity $g$ $(b)$ At the poles $(3)$ Zero value of acceleration due to gravity $g$ $(c)$ At the equator

Similar Questions

If the acceleration due to gravity experienced by a point mass at a height $h$ above the surface of the Earth is the same as the acceleration due to gravity at a depth $d = \alpha h$ $(h \ll R_{e})$ from the Earth's surface,then the value of $\alpha$ will be: (use $R_{e} = 6400 \ km$)

The dependence of acceleration due to gravity $g$ on the distance $r$ from the centre of the earth,assumed to be a sphere of radius $R$ of uniform density,is as shown in the figure below. The correct figure is:

Suppose a vertical tunnel is dug along the diameter of the Earth,which is assumed to be a sphere of uniform mass having density $\rho$. If a body of mass $m$ is dropped into this tunnel,its acceleration at a distance $y$ from the center is given by

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Match Column-$I$ with Column-$II$.

Column-$I$ Column-$II$

$(1)$ Maximum value of acceleration due to gravity $g$ $(a)$ At the center of the Earth

$(2)$ Minimum value of acceleration due to gravity $g$ $(b)$ At the poles

$(3)$ Zero value of acceleration due to gravity $g$ $(c)$ At the equator