A planet is revolving around the sun in an elliptical orbit having eccentricity `e (= (pi)/(4))`. If the time period of revolution is 16 months then find the time taken by the planet in going from A to B in months.

A planet revolves around the sun in elliptical orbit of eccentricity 'e'. If 'T' is the time period of the planet then the time spent by the planet between the ends of the minor axis and major axis close to the sun is

A planet is moving round the sun in an elliptical orbit as shows. As the planet moves from A to B

For a planet revolving around Sun in an elliptical orbit, to obtain its velocity at any point we have to apply

Supose a planet is revolving around the sun in an elliptical path given by (x^(2))/(a^(2)) + (y^(2))/(b^(2))=1 Find time period of revolution Angular momentum of the planet about the sun is L .

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

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 is revolving around the sun in a circular orbit with a radius r. The time period is T .If the force between the planet and star is proportional to r^(-3//2) then the quare of time period is proportional to

A planet is revolving around the sun in an elliptcal orbit. Its KE is different for different points and the total energy is negative. Its linear momentum is not conserved the eccentricity decides the shape of the orbit. Net torque on the planet is

A planet is revolving around the sun in an elliptcal orbit. Its KE is different for different points and the total energy is negative. Its linear momentum is not conserved the eccentricity decides the shape of the orbit. Velocity of the planet is minimum at