Radius of orbit of satellite of earth is `R`. Its kinetic energy is proportional to

The radius of the orbit of a satellite is r and its kinetic energy is k if the radius of the orbit is doubled then the new kinetic energy k is

In a satellite if the time of revolution is T , then kinetic energy is proportional to

The time period of a satellite in a circular orbit around the earth is T . The kinetic energy of the satellite is proportional to T^(-n) . Then, n is equal to :

If radius of an orbitating satellite is decreased , then its kinetic energy

At what height above Earth's surface is the energy required to lift a satellite to that height equal to the kinetic energy required for the satellite to be in orbit at that height ?(b) For greater heights, which is greater, the energy for lifting or the kinetic energy for orbiting ?

Let kinetic energy of a satellite is x, then its time of revolution T is proportional to

Assertion : It we double the circular radius of a satellite, then its potential energy, kinetic energy and total mechanical energy will become half. Reason : Orbital speed of a satellite. upsilon prop (1)/(sqrt(r ) where, r is its radius of orbit.

A satellite is orbiting earth at a distance r. Variations of its kinetic energy. potential energy and total energy, is sohwn in the figure. Of the three curves shown in figure, identify the type of mechanical energy they represent.

The mean radius of the orbit of a satellite is 4 times as great as that of the parking orbit of the earth. Then its period of revolution around the earth is

The kinetic energy of a satelliete in its orbit around the earht is E. What shoud be the kinetic energy of the satellite so as to enable it to escape crom the gravitational pull of the Earth?