Time period of revolution of a nearest satellite around a planet of radius R is T . Period of revolution around another planet, whose radius is 3R but having same density is

Time period of a satellite in a circular obbit around a planet is independent of

The time period of a satellite in a circular orbit of radius R is T. The radius of the orbit in which time period is 8 T is

If T is the time period of revolution of a satellite, then K.E. is proportional to

Obtain an expression for the period of a satellite in a circular orbit round the earth OR Show that the square of the period of revolution of satellite is directly proportional to the cube of the orbital radius. OR Show that period of the satellite revolving around the earth depends upon mass of the earth

Time period of second pendulum on a planet, whose mass and diameter are twice that of earth, is

Two satellites A and B are revolving round a planet. Their periods of revolution are 1 hour and 27 hour respectively. The radius of orbit of satellite A is 8 xx 104 km ., find radius of orbit of satellite B.

Two satellites A and B are revolving round a planet. Their periods of revolution are 1 hour and 8 hour respectively. The radius of orbit of satellite B is 4xx10^4 km. find radius of orbit of satellite A .

Imagine a light planet revolving around a very massive star in a circular orbit of radius R with a period of revolution T. if the gravitational force of attraction between the planet and the star is proportational to R^(-5//2) , then (a) T^(2) is proportional to R^(2) (b) T^(2) is proportional to R^(7//2) (c) T^(2) is proportional to R^(3//3) (d) T^(2) is proportional to R^(3.75) .

If the distance between the earth and sun becomes 1/4 ^(th) , then its period of revolution around the sun will become

The square of time period of revolution around the sun is diretly proportional to the ______of the planet from the sun .