The radii of circular orbits of two satellites A and B of the earth are 4R and R, respectively. If the speed of satellite A is 3v, then the speed of satellite B will be

The radii of circular orbits of two satellite A and B of the earth are 4R and R , respectively. If the speed of satellite A is 3v , then the speed of satellite B will be

Two satellites A and B go around a planet in circular orbits of radii 4 R and R respectively. If the speed of the satellite A is 3 V, then the speed of the satellite B will be

Two satellites P and Q go round a planet in circular orbits of radii 9R and R respectively. If the speed of the satellite P is 4V, then speed of satellite Q will be

The circular orbit of two satellites have radii r_(1) and r_(2) respectively (r_(1)ltr_(2)) . If angular velosities of satellites are same, then their centripetal accelerations are related as

Two artificial satellites A and B are at a distance r_(A) and r_(B) above the earth's surface. If the radius of earth is R, then the ratio of their speed will be :-

The orbital speed of geostationary satellite is around

A satelite is revolving in a circular orbit at a height h above the surface of the earth of radius R. The speed of the satellite in its orbit is one-fourth the escape velocity from the surface of the earth. The relation between h and R is

A satellite moves around the earth in a circular orbit with speed v . If m is the mass of the satellite, its total energy is

Two satellite A and B are travelling in the same plane and same sense in circular orbit around the earth at an atitude r_(A) and r_(B) from the centre of the earth respectively. If at time t=0 the satellite are aligned as shown in the figure, knowing that the radius of the earth R . Determine the time at which again the satellite will be aligned as they were at t=0