A planet revolves about the sun in elliptical orbit. The arial velocity `((dA)/(dt))` of the planet is `4.0xx10^(16) m^(2)//s`. The least distance between planet and the sun is `2xx10^(12) m`. Then the maximum speed of the planet in `km//s` is -

A planet revolves about the sun in an elliptical orbit of semi-major axis 2xx10^(12) m . The areal velocity of the planet when it is nearest to the sun is 4.4xx10^(16) m//s . The least distance between the planet and the sun is 1.8xx10^(12) m//s . The minimum speed of the planet in km//s is 10 K . determine the value of K .

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

A planet revolves around the sun in elliptical orbit of semimajor axis 2 × 10^(12 ) m. The areal velocity of the planet when it is nearest to the sun is 4.4 × 10^(16) m^(2)/ /s . The least distance between planet and the sun is 1.8 × 10^(12) m. Find the minimum speed of the planet in km/s.

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

The distance of two planets from the sun are 10^(13) and 10^(12) m respectively. The ratio of the periods of the planet is

A planet is revolving round the sun in an elliptical orbit as shown in figure. Select correct alternative(s)

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

A planet goes around the sun in an elliptical orbit. The minimum distance of the planet from the Sun is 2xx10^(12)m and the maximum speed of the planet in its path is 40kms^(-1). Find the rate at which its position vector relative to the sun sweeps area, when the planet is at a distance 2.2xx10^(12) from the sun.

The distance of two planets from the sun are 10^(12)m and 10^(10)m respectively. Then the ratio of their time periods is

A planet revolves in elliptical orbit around the sun. (see figure). The linear speed of the planet will be maximum at