Gravitation - Rajasthan Board (RBSE) STD 12 Science Physics Questions

Q 1M.C.Q (1 Marks)1 Mark

Let V and E represent the gravitational potential and field at a distance r from the centre of a uniform solid sphere. Consider the two statements:
a.The plot of V against r is discontinuous.
b.The plot of E against r is discontinuous.

A
Both A and B are correct.
B
A is correct but B is wrong.
C
B is correct but A is wrong.
✓
Both A and B are wrong.

Answer: D.

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Q 2M.C.Q (1 Marks)1 Mark

A body is suspended from a spring balance kept in a satellite. The reading of the balance is $W_1$ when the satellite goes in an orbit of radius $R$ and is $W_2$ when it goes in an orbit of radius $R_2$.

✓
$ \mathrm{W}_1=\mathrm{W}_2$
B
$ \mathrm{~W}_1<\mathrm{W}_2 $
C
$ \mathrm{~W}_1>\mathrm{W}_2 $
D
$\mathrm{~W}_1 \neq \mathrm{W}_2$

Answer: A.

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Q 3M.C.Q (1 Marks)1 Mark

The magnitude of gravitational potential energy of the moon-earth system is U with zero potential energy at infinite separation. The kinetic energy of the moon with respect to the earth is K.

A
U < K
✓
U > K
C
U = K
D
all of the

Answer: B.

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Q 4M.C.Q (1 Marks)1 Mark

If the acceleration due to gravity at the surface of the earth is g, the work done in slowly lifting a body of mass m from the earth's surface to a height R equal to the radius of the earth is:

✓
$\frac{1}{2}\text{mgR}$
B
$2\text{mgR}$
C
$\text{mgR}$
D
$\frac{1}{4}\text{mgR}$

Answer: A.

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Q 5M.C.Q (1 Marks)1 Mark

A uniform spherical shell gradually shrinks maintaining its shape. The gravitational potential at the centre:

A
Increases.
B
Decreases.
C
Remains constant.
✓
Oscillates.

Answer: D.

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Q 62 Marks Questions2 Marks

Three particles of mass m each are placed at the three corners of an equilateral triangle of side a. Find the work which should be done on this system to increase the sides of the triangle to 2a.

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Q 72 Marks Questions2 Marks

Find the acceleration due to gravity in a mine of depth 640m if the value at the surface is $9.800m/s^2$. The radius of the earth is 6400km.

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Q 82 Marks Questions2 Marks

Can you think of two particles which do not exert gravitational force on each other?

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Q 92 Marks Questions2 Marks

At noon, the sun and the earth pull the objects on the earth's surface in opposite directions. At midnight the sun and the earth pull these objects in same direction. Is the weight of an object, as measured by a spring balance on the earth's surface, more at midnight as compared to its weight at noon?

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Q 102 Marks Questions2 Marks

A mass of $6 \times 10^{24} \mathrm{~kg}$ (equal to the mass of the earth) is to be compressed in a sphere in such a way that the escape velocity from its surface is $3 \times 10^8 \mathrm{~m} / \mathrm{s}$. What should be the radius of the sphere?

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Q 113 Marks Question3 Marks

The gravitational potential energy of a two particle system is derived in this chapter as $\text{U}=-\frac{\text{Gm}_1\text{m}_2}{\text{r}}.$ Does it follow from this equation that the potential energy for $\text{r}=\infty$ must be zero? Can we choose the potential energy for $\text{r}=\infty.$ to be 20J and still use this formula? If no, what formula should be used to calculate the gravitational potential energy at separation r?

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Q 123 Marks Question3 Marks

What is the true weight of an object in a geostationary satellite that weighed exactly 10.0N at the north pole?

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Q 133 Marks Question3 Marks

Three uniform spheres each having a mass M and radius a are kept in such a way that each touches the other two. Find the magnitude of the gravitational force on any of the spheres due to the other two.

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Q 143 Marks Question3 Marks

The weight of an object is more at the poles than at the equator. Is it benificial to purchase goods at equator and sell them at the pole? Does it matter whether a spring balance is used or an equal-beam balance is used?

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Q 153 Marks Question3 Marks

The moon takes about 27.3 days to revolve round the earth in a nearly circular orbit of radius $3.84 x 10^5km$. Calculate the mass of the earth from these data.

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Q 165 Marks Questions5 Marks

Suppose the gravitational potential due to a small system is $\frac{\text{k}}{\text{r}^2}$ at a distance r from it. What will be the gravitational field? Can you think of any such system? What happens if there were negative masses?

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Q 175 Marks Questions5 Marks

A particle is fired vertically upward with a speed of 15km/s. With what speed will it move in intersteller space. Assume only earth's gravitational field.

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Q 185 Marks Questions5 Marks

An apple falls from a tree. An insect in the apple finds that the earth is falling towards it with an acceleration g. Who exerts the force needed to accelerate the earth with this acceleration g?

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Q 195 Marks Questions5 Marks

Find the minimum colatitude which can directly receive a signal from a geostationary satellite.

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Q 205 Marks Questions5 Marks

Derive an expression for the gravitational field due to a uniform rod of length L and mass M at a point on its perpendicular bisector at a distance d from the centre.

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Q 21Case study (4 Marks)4 Marks

No part of India is situated on the equator. Is it possible to have a geostationary satellite which always remains over New Delhi?

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Q 22Case study (4 Marks)4 Marks

Find the acceleration due to gravity of the moon at a point 1000km above the moon's surface. The mass of the moon is $7.4 \times 10^{22}kg$ and its radius is 1740km.

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Gravitation Physics - Gravitation

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