Two satellite are revolving around the earth with velocities v1 and v2 and in radii r1 and r2r1>r2respectively. Then -

1. v1=v2                                

2. v1>v2  

3. v1<v2                                

4.  v1r1=v2r2  

Subtopic:  Orbital velocity |
 79%
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If orbital velocity of planet is given by v=GaMbRc, then -

1. a=1/3, b=1/3, c=1/3      

2. a=1/2, b=1/2, c=1/2      

3. a=1/2, b=1/2, c=1/2   

4. a=1/2, b=1/2, c=1/2          

Subtopic:  Orbital velocity |
 89%
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The mass of a planet that has a moon whose time period and orbital radius are T and R respectively can be written as -

1. 4π2R3G1T2                                

2. 8π2R3G1T2  

3. 12π2R3G1T2                               

4. 16π2R3G1T2  

Subtopic:  Satellite |
 80%
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The eccentricity of earth's orbit is 0.0167. The ratio of its maximum speed in its orbit to its minimum speed is

1.   2.507                                             
2.   1.033
3.   8.324                                             
4.   1.000

Subtopic:  Kepler's Laws |
 72%
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Assuming the earth to have a constant density, point out which of the following curves show the variation of acceleration due to gravity from the centre of earth to the points far away from the surface of earth -


1. 
2. 
3. 
4. None of these

Subtopic:  Acceleration due to Gravity |
 84%
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The radius of orbit of a planet is two times that of the earth. The time period of the planet is:

1.   4.2 years                          

2.   2.8 years

3.   5.6 years                          

4.   8.4 years

Subtopic:  Kepler's Laws |
 80%
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The diagram showing the variation of gravitational potential of earth with distance r from the centre of earth is -

 

1. 2.
3. 4.
Subtopic:  Gravitational Potential | Gravitational Potential Energy |
 52%
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The orbital angular momentum of a satellite revolving at a distance \(r\) from the centre is \(L\). If the distance is increased to \(16r\), then the new angular momentum will be:
1. \(16L\) 2. \(64L\)
3. \(L \over 4\) 4. \(4L\)
Subtopic:  Satellite |
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The condition for a uniform spherical mass m of radius r to be a black hole is [G= gravitational constant and g= acceleration due to gravity] .

1. 2Gm/r1/2c                

2. 2Gm/r1/2=c 

3. 2Gm/r1/2c                

4.  gm/r1/2c

Subtopic:  Escape velocity |
 76%
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A sphere of mass M and radius R2 has a concentric cavity of radius R1 as shown in figure. The force exerted by the sphere on a particle of mass m located at a distance r from the centre of sphere varies as (0r)

 

1. 2.
3. 4.
Subtopic:  Gravitational Field |
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