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

If g is acceleration due to gravity on the surface of the earth, having radius R , the height at which the acceleration due to gravity reduces to g//2 is

One goes from the centre of the earth to a distance two third the radius of the earth. The acceleration due to gravity is highest at

Does the concentration of the earth's mass near its centre change the variation of g (acceleration due to gravity) with height from its surface?

An earth satellite of mass m revolves in a circular orbit at a height h from the surface of the earth. R is the radius of the earth and g is acceleration due to gravity at the surface of the earth. The velocity of the satellite in the orbit is given by

The ratio of the radius of the earth to that of the motion is 10. the ratio of the acceleration due to gravity on the earth to that on the moon is 6. The ratio of the escape velocity from the earth's surface to that from the moon is

If radius of earth shrinks by 1% then for acceleration due to gravity :

The value of acceleration due to gravity at the surface of earth

If the density of the planet is double that of the earth and the radius 1.5 times that of the earth, the acceleration due to gravity on the planet is

A satellite of mass m is moving in a circular or orbit of radius R around the earth. The radius of the earth is r and the acceleration due to gravity at the surface of the earth is g. Obtain expressions for the following : (a) The acceleration due to gravity at a distance R from the centre of the earth (b) The linear speed of the satellite (c ) The time period of the satellite

An artificial satellite is moving in circular orbit around the earth with speed equal to half the magnitude of escape velocity from the surface of earth. R is the radius of earth and g is acceleration due to gravity at the surface of earth (R = 6400km) Then the distance of satelite from the surface of earth is .