A satellite of mass `m_0` is revolving around the earth in circular orbit at a height of `3R` from surface of the earth the areal velocity of satellite is (where R is radius of earth and `M_0` is the mass of earth)

A satellite is revolving round the earth in circular orbit

A satellite is revolving round the earth in circular orbit

A satellite is revolving around earth in a circular orbit at a height (R )/(2) from the surface of earth. Which of the following are correct statements about it (M = mass of earth, R = radius of earth, m = mass of satellite) ?

Two identical satellites A and B revolve round the earth in circular orbits at distance R and 3R from the surface of the earth. The ratio of the linear momenta of A and B is (R = radius of the earth)

An earth satellite is moving around the earth in circular orbit. IN such case what is conserved

A satellite of mass m is revolving around the Earth at a height R above the surface of the Earth. If g is the gravitational intensity at the Earth’s surface and R is the radius of the Earth, then the kinetic energy of the satellite will be:

A satellite of mass m is revolving around the Earth at a height R above the surface of the Earth. If g is the gravitational intensity at the Earth’s surface and R is the radius of the Earth, then the kinetic energy of the satellite will be:

Gravitational potential at a height R from the surface of the earth will be [Take M = mass of the earth, R = radius of the earth]

A satellite is orbiting the earth in a circular orbit of radius r . Its

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