Express escape velocity in terms of radius and density of a planet.

Derive an expression for the escape velocity of a body from any planet.

Derive an expression of wave velocity in terms of frequency and wavelength of the wave.

The escape velocity of a particle of mass 'm'

The ratio of escape velocity at earth (v_(e)) to the escape velocity at a planet (v_(y)) whose radius and density are twice

Find radius of such planet on which the man escapes through Jumping. The capacity of Jumping of person on earth is 1.5m Density of planet is same as that of earth .

The escape velocity of a particle on earth ( radius R and mass M ) is 11.2 kms^(-1) . What is the escape velocity on another planet with radius R//2 and mass M//4 ?

What should be the radius of a planet with mass equal to that of earth and escape velocity on its surface is equal to the velocity of light. Given that mass of earth is M=6xx10^(24)kg .

Escape velocity at earth's surface is 11.2km//s . Escape velocity at the surface of a planet having mass 100 times and radius 4 times that of earth will be

Calculate the escape velocity from the surface of a planet of mass 14.8 xx 10^(22) kg. It is given that radius of the planet is 3.48 xx 10^(6) m.

Let escape velocity od a body a kept surface of a planet is u , If it is projected at a speed of 200 % more than the escape speed , then its speed in interstellar space will be