The earth revolves round the sun in an elliptical orbit. Its speed

Assertion(A) : The earth revolves around the sun an elliptical orbit Reasoning(R) : The sun alwaye attracts the earth with the same force

A planet revolves around the sun in an elliptical orbit. If v_(p) and v_(a) are the velocities of the planet at the perigee and apogee respectively, then the eccentricity of the elliptical orbit is given by :

The earth moves around the Sun in an elliptical orbit as shown in Fig. The ratio OA//OB=x . The ratio of the speed of the earth at B to that at A is nearly

A planet is revolving around the Sun in an elliptical orbit. Its closest distance from the Sun is r and farthest distance is R . If the orbital velocity of the planet closest to the Sun is v , then what is the velocity at the farthest point?

A planet is revolving around the Sun in an elliptical orbit. Its closest distance from the sun is r_(min) . The farthest distance from the sun is r_(max) if the orbital angular velocity of the planet when it is nearest to the Sun omega then the orbital angular velocity at the point when it is at the farthest distance from the sun is

A planet revolves around the sun in an elliptical orbit. Suppose that the gravitational attraction between the sun and the planet suddenly disappear then the planet would move

A comet revolves around the sun in an eliptical orbit. When it is closest to the sun at a distance d, its corresponding kinetic energy is k_(0) . If it is farthest from the sun at distance 3d then the corresponding kinetic energy will be

Following physical quantity is constant where a planet that revolves around Sun in an elliptical orbit.

A planet revolves around the sun in an elliptical . The linear speed of the planet will be maximum at

A planet is revolving round the sun in an elliptical orbit, If v is the velocity of the planet when its position vector from the sun is r, then areal velocity of the planet is