If r represents the radius of the orbit of a satellite of mass m moving around a planet of
mass M, the velocity of the satellite is given by:
1.
2.
3.
4.
An earth satellite of mass m revolves in a circular orbit at a height h from the surface of
the earth. R is the radius of the earth and g is acceleration due to gravity at the surface
of the earth. The velocity of the satellite in the orbit is given by:
1.
2. gR
3.
4.
A satellite which is geostationary in a particular orbit is taken to another orbit. Its
distance from the centre of earth in new orbit is 2 times that of the earlier orbit. The time
period in the second orbit is:
1. 4.8 hours
2. hours
3. 24 hours
4. hours
The ratio of the K.E. required to be given to the satellite to escape earth's gravitational
field to the K.E. required to be given so that the satellite moves in a circular orbit just
above earth atmosphere is:
1. One
2. Two
3. Half
4. Infinity
An astronaut orbiting the earth in a circular orbit 120 km above the surface of earth, gently drops a spoon out of space-ship. The spoon will
1. Fall vertically down to the earth
3. Move towards the moon
4. Will move along with space-ship
4. Will move in an irregular way then fall down
The period of a satellite in a circular orbit around a planet is independent of
1. The mass of the planet
2. The orbital radius of satellite around the planet
3. The mass of the satellite
4. All the three parameters 1, 2 and 3
A geostationary satellite:
1. Revolves about the polar axis
2. Has a time period less than that of the near-earth satellite
3. Moves faster than a near-earth satellite
4. Is stationary in the space
A small satellite is revolving near earth's surface. Its orbital velocity will be nearly
1. 8 km/sec
2. 11.2 km/sec
3. 4 km/sec
4. 6 km/sec
The distance of neptune and saturn from sun are nearly and meters respectively. Assuming that they move in circular orbits, their periodic times will be in the ratio
1.
2. 100
3.
4.
The orbital velocity of an artificial satellite in a circular orbit just above the earth's surface is v. For a satellite orbiting at an altitude of half of the earth's radius, the orbital velocity is
1.
2.
3.
4.