If the density of the earth is doubled keeping its radius constant then acceleration due to gravity will be `(g=9.8 m//s^(2))`

If the density of the earth is tripled keeping its radius constant, then acceleration due to gravity will be (g=9.8 m/s^2)

If the earth were to stop rotating, the value of acceleration due to gravity at Mumbai will

The mean radius of the earth is R , its angular speed on its own axis is omega and the acceleration due to gravity at earth's surface is g . The cube of the radius of the orbit of a geo-stationary satellite will be

Starting from the centre of the earth having radius R, the variation of g (acceleration due to gravity) is shown by

The value of the acceleration due to gravity g on earth depends upon

The mass of a planet is 6 times the mass of earth and its radius is 3 times that of the earth . Considering acceleration due to gravity on earth to be 9.8m//s^2 , calculate the value of g on the other planet.

Calculate the value of the universal gravitational constant from the given data. Mass of the Earth = 6xx10^24 kg, Radius of the Earth = 6400 km and the acceleration due to gravity on the surface = 9.8 m//s^2

If the radius of the earth were to shrink by 1% its mass remaining the same, the acceleration due to gravity on the earth's surface would

As we go above the earth's surface , the value of acceleration due to gravity increases.

If the radius of solid sphere is doubled by keeping its mass constant, compare the moment of inertia about any diameter. (1:4)