A satellite is moving around the earth with speed v in a circular orbit of radius r. If the orbit radius is decreased by 1%, its speed will 

(1) Increase by 1%                       

(2) Increase by 0.5%

(3) Decrease by 1%                     

(4) Decrease by 0.5%

Subtopic:  Orbital velocity |
 63%
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Orbital velocity of an artificial satellite does not depend upon 

(1) Mass of the earth

(2) Mass of the satellite

(3) Radius of the earth

(4) Acceleration due to gravity

Subtopic:  Orbital velocity |
 90%
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The time period of a geostationary satellite is

(1) 24 hours                         

(2) 12 hours

(3) 365 days                         

(4) One month

Subtopic:  Satellite |
 89%
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The orbital velocity of Earth's satellite near the surface is 7 km/s. When the radius of the orbit is 4 times more than that of Earth's radius, then orbital velocity in that orbit is:

(1) 3.5 km/s                         

(2) 7 km/s

(3) 72 km/s                           

(4) 14 km/s

Subtopic:  Orbital velocity |
 72%
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A mass M is split into two parts, m and (M–m), which are then separated by a certain distance. What ratio of m/M maximizes the gravitational force between the two parts
(1) 1/3                           

(2) 1/2

(3) 1/4                           

(4) 1/5

Subtopic:  Newton's Law of Gravitation |
 86%
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Two identical satellites are at R and 7R away from earth surface, the wrong statement is (R = Radius of earth)

(1) Ratio of total energy will be 4

(2) Ratio of kinetic energies will be 4

(3) Ratio of potential energies will be 4

(4) Ratio of total energy will be 4 but ratio of potential and kinetic energies will be 2

Subtopic:  Gravitational Potential Energy |
 67%
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For a satellite, the escape velocity is 11 km/s. If the satellite is launched at an angle of 60° with the vertical, then escape velocity will be: 

(1) 11 km/s                        

(2) 113 km/s

(3) 113 km/s                     

(4) 33 km/s

Subtopic:  Escape velocity |
 87%
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The mean radius of the earth is R, its angular speed on its own axis is ω and the acceleration due to gravity at the earth's surface is g. The cube of the radius of the orbit of a geostationary satellite will be -

(1) R2g/ω                   

(2) R2ω2/g

(3) Rg/ω2                    

(4) R2g/ω2

Subtopic:  Orbital velocity |
 58%
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A satellite whose mass is \(m\), is revolving in a circular orbit of radius \(r\), around the earth of mass \(M\). Time of revolution of the satellite is:
1. \(T \propto \frac{r^5}{GM}\)
2. \(T \propto \sqrt{\frac{r^3}{GM}}\)
3. \(T \propto \sqrt{\frac{r}{\frac{GM^2}{3}}}\)
4. \(T \propto \sqrt{\frac{r^3}{\frac{GM^2}{4}}}\)

Subtopic:  Kepler's Laws |
 81%
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Suppose the gravitational force varies inversely as the \(n^{th}\) power of distance then the time period of a planet in circular orbit of radius \(R\) around the sun will be proportional to:
1. \(R^{\left(\frac{n+1}{2}\right)}\)
2. \(R^{\left(\frac{n-1}{2}\right)}\)
3. \(R^n\)
4. \(R^{\left(\frac{n-2}{2}\right)}\)

Subtopic:  Newton's Law of Gravitation |
 65%
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