The additional kinetic energy to be provided to a satellite of mass `m` revolving around a planet of mass `M`, to transfer it forms a circular orbit of radius `R_(1)` to another of radius `R_(2)(R_(2)gtR_(1))` is

A satellite of mass m revolves in a circular orbit of radius R a round a planet of mass M. Its total energy E is :-

A satellite is moving around the earth's with speed v in a circular orbit of radius r . If the orbit radius is decreases by 1% , its speed will

If the time period of a satellite in the orbit of radius r around a planet is T. Then the time period of a satellite in orbit of radius 4r is T = .....

Energy required to move a body of mass m from an orbit of radius 2R to 3R is

Charge q_2 of mass m revolves around a stationary charge q_1 in a circular orbit of radius r. The orbital periodic time of q_2 would be ........

What will be velocity of a satellite revolving around the earth at a height h above surface of earth if radius of earth is R :-

An artificial satellite is revolving around a planet of mass M and radius R in a circular orbit of radius r. From Kepler's third law about the period of a satellite around a common central body, square of the period of revolution T is proportional to the cube of the radius of the orbit r. Show using dimensional analysis that T=(k)/(R) sqrt((r^(3))/(g)) where k is dimensionless RV g constant and g is acceleration due to gravity.

Two satellite revolving around a planet in the same orbit have the ratio of their masses m_1/m_2 =1/4 The ratio of their orbital velocities v_1/v_2= ....

Two satellite A and B , ratio of masses 3 : 1 are in circular orbits of radii r and 4 r . Then ratio of total mechanical energy of A to B is

The kinetic energy of the electron in an orbit of radius r in hydrogen atom is proportional ......