A body on the equaotr of a planet weighs half of its weight at the pole. The density of matter of the planet is `3g//cm^(3)`. Determine the peiod of rotation of the planet about its axis.

A spherical uniform planet is rotating about its axis. The velocity of a point on its equator is 7.5 kms^(-1) . Due to the rotation of the planet about its axis, the acceleration due to gravity g at equator is 1//2 of g at poles. What is the escape velocity ("in km s"^(-1)) of a particle on the planet from the pole of the planet?

An astronaut landed on a planet and found that his weight at the pole of the planet was one third of his weight at the pole of the earth. He also found himself to be weightless at the equator of the planet. The planet is a homogeneous sphere of radius half that of the earth. Find the duration of a day on the planet. Given density of the earth =d_(0).

If the angular velocity of a planet about its own axis is halved, the distance of geostationary satellite of this planet from the centre of the centre of the planet will become

There is a planet P mass 2M and mass of earth M density of earth to density of planet. Body weight in earth is W. Then the weight of object on planet P is

If the radius of a planet is R and its density is rho , the escape velocity from its surface will be

If earth were to rotate on its own axis such that the weight of a person at the equator becomes half the weight at the poles, then its time period of rotation is (g = acceleration due to gravity near the poles and R is the radius of earth) (Ignore equatorial bulge)

A spherical uniform planet is rotating about its axis. The velocity of a point on its equator is V . Due to the rotation of planet about its axis the acceleration due to gravity g at equator is 1//2 of g at poles. The escape velocity of a particle on the planet in terms of V .

Consider a hypothetical planet which is very long and cylinderical. The density of the planet is rho , its radius is R . Assume that the planet is rotating abouts its axis with time period T . How far from the axis of the planet do the synchronous telecommunications satellite orbit?