Two satellite `S_1 and S_2` revolve round a planet in coplanar circular orbits in the same sense. Their periods of revolutions are 1 h nd 8 h respectively. The radius of the orbit of `S_1` is `10^4 km`. When `S_2` is closet to `S_1`., find (a). The speed of `S_2` relative to `S_1` and (b). the angular speed of `S_2` as observed by an astronaut in `S_1`.

Two satellites S_(1) and S_(2) revolve round a planet in coplaner circular orbit in the same sense. Their period of revolution are 1 hour and 8 hour respectively. The radius of the orbit of S_(1) is 10^(4) km . When S_(2) is closest to S_(1) , find (a) The speed of S_(2) relative to S_(1) , (b) The angular speed of S_(2) actually observed by an astronaut is S_(1)

Two satellites S_(1) and S_(2) revolve around a planet in coplanar circular orbits in the same sense their periods of revolution are 1 hour and 8hours respectively the radius of the orbit of S_(1) is 10^(4) km when S_(1) is closest to S_(2) the angular speed of S_(2) as observed by an astronaut in S_(1) is :

Two satellites S_(1) and S_(2) are revolving round a planet in coplanar and concentric circular orbit of radii R_(1) and R_(2) in te same direction respectively. Their respective periods of revolution are 1 hr and 8 hr. the radius of the orbit of satellite S_(1) is equal to 10^(4) km. Find the relative speed in kmph when they are closest.

Two satellites S_(1) and S_(2) are revolving around the earth in coplanar concentric orbits in the opposite sense. At t=0 , the position of satellites are shown in the diagram. The periods of S_(1) and S_(2) are 4h and 24h , respectively. The radius of orbit of S_(1) is 1.28xx10^(4)km . For this situation, mark the correct statement (s).

Two satellities s_(1) a & s_(2) of equal masses revolves in the same sense around a heavy planet in coplaner circular orbit of radii R & 4R

Two satellites S_1 and S_2 revolve around the earth at distances 3R and 6R from the centre of the earth. Find the ratio of their (a) linear speeds and (b) angular speeds.

A satellite is revolving round the earth in a circular orbit with a velocity of 8km/s. at a height where acceleration due to gravity is 8m//s^(2) . How high is the satellite from the earth ? (Take R = 6000 km)

The Velocity of four gas molecules are given by 1 km/s, 2 km/s, 6 km/s and 8 km/s respectively. The rms velocity is

Orbital radius of a satellite S of earth is four times that s communication satellite C. Period of revolution of S is :-