STATEMENT -1 : Time period of a satellite is inversely propertional to the square root of the mass of planet.
STATEMENT -2 : Self gravitational potential energy of earth is positive.
STATEMENT -3 : Orbital velocity of a satellite does depend upon the mass of planet.

How does the orbital velocity of a satellite depend on the mass of the satellite ?

STATEMENT-1: The gravitational potential energy of a solid sphere is negative. STATEMENT-2: Two masses attract each other.

Escape velocity of a body of 1 g mass on a planet is 100 m/sec . Gravitational Potential energy of the body at the planet is

A satellite of mass m is revolving at a height R above theh sruface of Earth. Here R is the radius of the Earth. The gravitational potential energy of this satellite

Escape velocity of a body 1 kg mass on a planet is 100 ms^(-1) . Gravitational potential energy of the body at that planet is

Show that period of a satellite revolving around the Earth depends upon mass of the Earth.

STATEMENT -1 : The orbital speed of geostationary satellite is nearly 3.1 km/s. STATEMENT -2 : The rotation of geostationary satellite around earth is from west to east. STATEMENT -3 : The total mechanical energy of an orbiting satellite is smaller than its kinetic energy.

What is the gravitational potential energy of the earth and a satellite of mass m=100kg orbiting close to the earth's surface ?

A satellite is orbiting very close to a planet. Its periodic time depends only on