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

The mean radius of earth is R, its angular speed on its own axis is omega and the acceleration due to gravity at earth's surface is g. What will be the radius of the orbit of a geostationary satellite (a) ((R^(2)g)/(omega^(2)))^(1//3) (b) ((Rg)/(omega^(2)))^(1//3) (c) ((R^(2)omega^(2))/(g))^(1//3) (d) ((R^(2)g)/(omega))^(1//3)

If mean radius of earth is R, its angular velocity is omega and the acceleration due to gravity at the surface of the earth is g . Then the cube of the radius of the orbit of geostationary satellite will be

If R is the radius of the earth and g the acceleration due to gravity on the earth's surface, the mean density of the earth is

How is the acceleration due to gravity on the surface of the earth related to its mass and radius ?

The angular speed of earth around its own axis is

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

If the radius of earth were to decrease by 1%, its mass remaining the same, the acceleration due to gravity on the surface of the earth will

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

If the radius of the earth were to shrink by one percent its mass remaining the same, the acceleration due to greavity on the earth's surface would

If g is the acceleration due to gravity on the surface of the earth , its value at a height equal to double the radius of the earth is