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NEET Previous Year Questions: Gravitation - NEET MCQ


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30 Questions MCQ Test - NEET Previous Year Questions: Gravitation

NEET Previous Year Questions: Gravitation for NEET 2024 is part of NEET preparation. The NEET Previous Year Questions: Gravitation questions and answers have been prepared according to the NEET exam syllabus.The NEET Previous Year Questions: Gravitation MCQs are made for NEET 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for NEET Previous Year Questions: Gravitation below.
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NEET Previous Year Questions: Gravitation - Question 1

 If suddenly the gravitational force of attraction between earth and a satellite revolving around it becomes zero, then the satellite will  

[AIEEE 2002]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 1

When the gravitational force becomes zero that means the centripetal force required cannot be provided therefore the satellite will tend to move tangential to the original orbit with the same velocity (that the satellite had at the instant before the gravitation force become 0).

NEET Previous Year Questions: Gravitation - Question 2

The escape velocity of a body depends upon mass as

[AIEEE 2002]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 2

We know that escape velocity, 
Where M is the mass of the planet and R is the radius of the planet.
Thus we can see that v does not depend upon the mass of the object.

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NEET Previous Year Questions: Gravitation - Question 3

The kinetic energy needed to project a body of mass m from the earth's surface (radius R) to infinity is  

[AIEEE 2002]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 3

If any object through with escaping velocity then the object will never come back at the ground, So we can assume it will reach at infinite distance.

NEET Previous Year Questions: Gravitation - Question 4

Energy required to move a body of mass m from an orbit of radius 2R to 3R is    

[AIEEE 2002]

NEET Previous Year Questions: Gravitation - Question 5

The escape velocity for a body projected vertically upwards from the surface of earth is 11 km/s. If the body is projected at an angle of 45° with the vertical, the escape velocity will be 

[AIEEE 2003]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 5

The escape velocity of a body does not depend on the angle of projection from earth. It is 11 km/s.
Hence C is correct.

NEET Previous Year Questions: Gravitation - Question 6

Two spherical bodies of mass M and 5M and radii R and 2R respectively are released in free space with initial separation between their centres equal to 12R. If they attract each other due to gravitational force only. then the distance covered by the smaller body just before collision is 

  [AIEEE 2003]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 6

Let the spheres collide after time t1 when the smaller sphere covered distance x1 and bigger sphere covered distance x2.
The gravitational force acting between two spheres depends on the distance which is a variable quantity.
The gravitational force, 
Acceleration of smaller body,

Acceleration of bigger body,
From equation of motion,


We know that 

Therefore the two spheres collide when the smaller sphere covered the distance of  7.5 R

NEET Previous Year Questions: Gravitation - Question 7

The time period of a satellite of earth is 5 h. If the separation between the earth and the satellite is increased to 4 times the previous value, the new time period will become

[AIEEE 2003]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 7

Read more on Sarthaks.com -

NEET Previous Year Questions: Gravitation - Question 8

Suppose the gravitational forces varies inversely as the nth power of distance. Then the time period of a planet in circular orbit of radius R around the sun will be proportional to

[AIEEE 2004]

NEET Previous Year Questions: Gravitation - Question 9

If g is the acceleration due to gravity on the earth's surface, the gain in the potential energy of an object of mass m raised from the surface of the earth to a height equal to the radius R of the earth, is 

[AIEEE 2004]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 9

NEET Previous Year Questions: Gravitation - Question 10

The time period of an earth satellite in circular orbit is independent of   

[AIEEE 2004]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 10

T = 2π a/v
a = radius of orbit
v = velocity of satellite
It is independent of mass of satellite

NEET Previous Year Questions: Gravitation - Question 11

A satellite of mass m revolves around the earth of radius R at a height x from its surface. If g is the acceleration due to gravity on the surface of the earth, the orbital speed of the satellite is 

[AIEEE 2004]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 11

½ mv2 = GMm/2r
r = R + x
g = GM/R2
v = [gR2/R+x]2 

NEET Previous Year Questions: Gravitation - Question 12

 A particle of mass 10 g is kept on the surface of a uniform sphere of mass 100 kg and radius 10 cm. Find the work to be done against the gravitational force between them, to take the particle far away from the sphere, (you may take G = 6.67 × 10-11 Nm2/kg-2)

 [AIEEE 2005]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 12

ΔW = Workdone = vf − ui
= 0 − [− GMmR]    
ΔW = 6.67 × 10−11× 100 / 0.1 x 10/1000 = 6.67×10−10J

NEET Previous Year Questions: Gravitation - Question 13

The change in the value of g at a height h above the surface of the earth is the same as at a depth d below the surface of earth. When both and h are much smaller than the radius of earth, then which one of the following is correct ? 

 [AIEEE 2005]

NEET Previous Year Questions: Gravitation - Question 14

 Average density of the earth 

 [AIEEE 2005]

NEET Previous Year Questions: Gravitation - Question 15

If gE and gM are the accelerations due to gravity on the surfaces of the earth and the moon respectively and if Millikan's oil drop experiment could be performed on the two surfaces, one will find the ratio  to be  

 [AIEEE 2007]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 15

Since electronic charge (1.6 × 10–19C) is a universal constant. It does not depend on g. Therefore, electronic charge on the moon = electronic charge on the earth
Or
(electronic charge on the moon)/ (electronic charge on the earth) = 1

NEET Previous Year Questions: Gravitation - Question 16

Statement I : For a mass M kept at the centre of a cube of side a, the flux of gravitational field passing through its sides is 4p GM.

and

Statement II : If the direction of a field due to apoint source is radial and its dependence on the distance r from the source is given as  its flux through a closed surface depends only on the strength of the source enclosed by the surface and not on the size or shape of the surface. 

 [AIEEE 2008]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 16

Gravity flux:
g × area = 4 π GM
Same as electric flux gravitation flux depends only on the strength of mass hot on shape as in electric flux it depend on the amount of charge not on shape or size of surface.

NEET Previous Year Questions: Gravitation - Question 17

A planet in a distant solar system is 10 times more massive than the earth and its radius is 10 times smaller. Given that the escape velocity from the earth is 11kms-1, the escape velocity from the surface of the planet would be 

 [AIEEE 2008]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 17

NEET Previous Year Questions: Gravitation - Question 18

The height at which the acceleration due to gravity becomes g/9 (where g = the acceleration due to gravity on the surface of the earth) in terms of R, the radius of the earth is   

[AIEEE 2009]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 18

NEET Previous Year Questions: Gravitation - Question 19

Two bodies of masses m and 4 m are placed at a distance r. The gravitational potential at a point on the line joining them where the gravitational field is zero, is 

[AIEEE 2011]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 19

Let the point be the position when the gravitational field is zero

the point P is at a distance r/3 from mass m and 2r/3 from mass 4m

NEET Previous Year Questions: Gravitation - Question 20

Two particles of equal mass m go around a circle of radius R under action of their mutual gravitational attraction. The speed of each particle with respect to their centre of mass is

[AIEEE 2011]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 20

Both their masses move in a circular path at exactly opposite diametrically ends with their centripetal forces being the common force of gravitation between them.
I.e. mv2/r = G.m.m/ 4r2
We get v = 

NEET Previous Year Questions: Gravitation - Question 21

The mass of a spaceship is 1000kg. It is to be launched from the earth's surface out into free space. The value of g and R (radius of earth) are 10 m/s2 and 6400 Km respectively. The required energy for this work will be   

[AIEEE 2012]

NEET Previous Year Questions: Gravitation - Question 22

What is the minimum energy required to launch a statellite of mass m from the surface of a planet of mass M and radius R in a circular orbit at an altitude of 2R?

[JEE MAIN 2013]

NEET Previous Year Questions: Gravitation - Question 23

 In a region of only gravitational field of mass `M' a particle is shifted from A to B via three different paths in the figure. The work done in different paths are W1, W2, W3 respectively then

  [JEE' (Scr.) 2003]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 23

Since the gravitational field is a conservative field, hence the work done in taking a particle from one point to another in a gravitational field of path independent.
⟹ w1​=w2​=w3

NEET Previous Year Questions: Gravitation - Question 24

What is the minimum energy required to launch a satellite of mass m from the surface of a planet of mass M and radius R in a circular orbit at an altitude of 2R?

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 24

From conservation of energy,
Total energy at the planet = Total energy at altitude

NEET Previous Year Questions: Gravitation - Question 25

A system of binary stars of masses mA and mB are moving in circular orbits of radii rA and rB respectively. If TA and TB are the time periods of masses mAand mB respectively, then

[JEE 2006]

NEET Previous Year Questions: Gravitation - Question 26

A spherically symmetric gravitational system of particles has a mass density

where r0 is a constant. A test mass can undergo circular motion under the influence of the gravitational field of particles. Its speed V as a function of distance r (0 < r < ∞) from the centre of the system is represented by

[JEE 2008]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 26

NEET Previous Year Questions: Gravitation - Question 27

 STATEMENT-1

An astronaut in an orbiting space station above the Earth experiences weightlessness. 

and           

STATEMENT-2

An object moving around the Earth under the influence of Earth's gravitaitonal force is in a state of `free-fall'.

[JEE 2008]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 27

The space station has an acceleration towards the Earth but it also has a velocity perpendicular to the radius which stops it from falling.

*Answer can only contain numeric values
NEET Previous Year Questions: Gravitation - Question 28

Gravitational acceleration on the surface of a planet is  where g is the gravitational acceleration on the surface of the earth. The average mass density of the planet is 2/3 times that of the earth. If the escape speed on the surface of the earth is taken to be 11 kms-1, the escape speed on the surface of the planet in kms-1 will be

[jee 2010]


Detailed Solution for NEET Previous Year Questions: Gravitation - Question 28

*Multiple options can be correct
NEET Previous Year Questions: Gravitation - Question 29

Two spherical planets P and Q have the same uniform density , masses Mpand MQ, and surface areas A and 4A, respectively. A spherical planet R also has uniform density and its mass is (MP + MQ). The escape velocities from the planets P, Q and R, are Vp, VQ and VR,respectively. Then

  [jee 2012]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 29

let mass of planet P = M and radius of planet P = R
Ap​=A
Aq​=4A
∴Rp​=R
And
Rq​=R/2
Also,
 density=mass​/volume
mass of planet Q= 8M and radius of planet Q= 2R
mass of planet R= 9M and radius of planet R =91/3​R
 so, escape velocity of P =Vp​=√2GM​​/R
VQ​=√2G8M/2R ​​=2VP
VR​= √2G8M​​/91/3​R =91​/3 VP​
so VR​>VQ​>VP
and VQ/ VP​​​=2

*Multiple options can be correct
NEET Previous Year Questions: Gravitation - Question 30

Two bodies, each of mass M, are kept fixed with a separation 2L. A particle of mass m is projected from the midpoint of the line joining their centres, perpendicular to the line. The gravitational constant is G. The correct statement(s) is (are) 

[jee 2013]

Detailed Solution for NEET Previous Year Questions: Gravitation - Question 30

 

Energy conservation

total energy of mass does not remain constant as net force on it is non-zero

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