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Test: Gravitation (August 8) - NEET MCQ


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10 Questions MCQ Test Daily Test for NEET Preparation - Test: Gravitation (August 8)

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Test: Gravitation (August 8) - Question 1

A man of mass m starts falling towards a planet of mass M and radius R. As he reaches near to the surface, he realizes that he will pass through a small hole in the planet. As he enters the hole, he sees that the planet is really made of two pieces a spherical shell of negligible thickness of mass 2M/3 and a point mass M/3 at the centre. Change in the force of gravity experienced by the man is

Detailed Solution for Test: Gravitation (August 8) - Question 1

Gravity does not depend upon shape and size of the celestial body. It depends only on the mass of the two bodies and distance between them.
Fold = GmM/R2 and Fnew = GmM/R2

Test: Gravitation (August 8) - Question 2

The escape velocity for a planet is ve. A tunnel is dug along a diameter of the planet and a small body is dropped into it at the surface. When the body reaches the centre of the planet, its speed will be

Detailed Solution for Test: Gravitation (August 8) - Question 2

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Test: Gravitation (August 8) - Question 3

Two uniform spherical stars made of same material have radii R and 2R. Mass of the smaller planet is m. They start moving from rest towards each other from a large distance under mutual force of gravity. The collision between the stars is inelastic with coefficient of restitution 1/2.

Kinetic energy of the system just after the collision is

Detailed Solution for Test: Gravitation (August 8) - Question 3


Test: Gravitation (August 8) - Question 4

A satellite of mass m, initially at rest on the earth, is launched into a circular orbit at a height equal to the radius of the earth. The minimum energy required is

Test: Gravitation (August 8) - Question 5

The orbit of a planet P round the sun S. AB and CD are the minor and major axes of the ellipse.

                 

If U is the potential energy and K kinetic energy then |U| > |K| at

Detailed Solution for Test: Gravitation (August 8) - Question 5

If a planet is orbiting the sun then |U|> |K| else it will leave the system because it won’t be under the influence of the sun’s gravity.

Test: Gravitation (August 8) - Question 6

Figure shows the variation of energy with the orbit radius r of a satellite in a circular motion. Select the correct statement.

                   

Detailed Solution for Test: Gravitation (August 8) - Question 6

Kinetic Energy of the Satellite =GMm​/2r
Potential Energy of the satellite =−GMm​/r 
Total Energy of the Satellite =−GMm​/2r
Hence, Kinetic Energy Cure will be above 0 , hence X 
Potential energy will be the lowest curve , hence Y 
Total Energy is the curve is below 0 , but higher magnitude than Potential Energy  . Hence, Z

*Multiple options can be correct
Test: Gravitation (August 8) - Question 7

Two masses m1 and m2 (m1 < m2) are released from rest from a finite distance. They start under their mutual gravitational attraction

Detailed Solution for Test: Gravitation (August 8) - Question 7


The total energy of the system remains constant.

*Multiple options can be correct
Test: Gravitation (August 8) - Question 8

 When a satellite in a circular orbit around the earth enters the atmospheric region, it encounters small air resistance to its motion. Then

Detailed Solution for Test: Gravitation (August 8) - Question 8

Due to air drag some mechanical energy of satellite will converted into heat energy, there will be loss of ME of satellite, so radius of orbit will decrease and satellite will follow a spiral path towards earth. 
If r is decreases,
P.E.=−GMm​/r, P.E. is also decreases.
K.E=GMm​/2r K.E increasing, increased speed in spite of decrease in M.E. But rate of P.E decreases is more than the rate at which M.E decreases.
Angular momentum L=mrv=mr√GM​r=m√GMr​⇒L∝√r​.
So, angular momentum decreases as r decreases.

*Multiple options can be correct
Test: Gravitation (August 8) - Question 9

 An earth satellite is moved from one stable circular orbit to another larger and stable circular orbit. The following quantities increase for the satellite as a result of this change

Detailed Solution for Test: Gravitation (August 8) - Question 9

Let’s see the formulae for each quantity given there,
Gravitational potential energy  =−GMm/r​
angular velocity =(GM/r3​)0.5
linear orbital velocity  =(GM/r​)0.5
centripetal acceleration  =GM/ r2
We can observe that, the quantities in the options B,C,D are all indirectly proportional to r
i.e. ω, v, a α(1/rn)​ where n is a distinct positive integer in each quantity.
So, with increase in r all these quantities decrease.
Now, (-potential energy) α(1/r)​ i.e. negative of potential energy decreases with increase in r. Therefore, potential increases with increase in orbital radius.

*Multiple options can be correct
Test: Gravitation (August 8) - Question 10

For a satellite to orbit around the earth, which of the following must be true ?

Detailed Solution for Test: Gravitation (August 8) - Question 10

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