The maximum and minimum distances of a comet from the Sun are and `8 xx10^(12)` and `1.6 xx10^(12)` If its velocity when nearest to the Sun is `60 ms^(-1)` what will be its velocity in ? when it is farthest?

The maximum and minimum distance of a comet form the sun are 8xx10^(12)m and 1.6xx10^(12)m . If its velocity when nearest to the sun is 60m//s , what will be its velocity in m/s when it is farthest

The maximum and minimum distances of a comet from the sun are 1.4 xx 10^(12) m and 7 xx 10^(10) m. If is velocity nearest to the sun is 6 xx 10^(4) ms^(-1) , what is the velocity in the fartest position ? Assume that path of the comet in both the instantaneous positions is circular.

The maximum and minimum distances of a comet from the sun 1.4 xx 10^(12) m and 7 xx 10^(10) m . If its velocity nearest of the sun is 6 xx 10^(4) ms^(-1) . What is its velocity at the farthest position ? Assume that path of commet in both the instantaneous position is circular.

The maximum and minimum distances of a cornet form Sun are 1.4 xx 10^(12) m and 7 xx 10^(10) m . If velocity nearest to Sun is 6 xx 10^(4) ms^(-1) , what is velocity if cornet when it is farthest from the Sun ?

The maximum and minimum distances of a comet from the Sun are 1.6 xx 10^(12) m and 8.0 xx 10^(10) m respectively. If the speed of the comet at the nearest point is 6 xx 10 ^(4) ms ^(-1), the speed at the farthest point is:

The maximum and minimum distance of a comet from the sun are 14 xx 10^9 m and 7 xx 10^7 m respectively. If the maximum velocity of the comet is 5 xx10^2 km/sec, its minimum velcity will be:-

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 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.