A body is imparted a velocity v from the surface of the earth. If `v_(0)` is orbital velocity and `v_(e)` be the escape velocity then for :

The escape velocity of a body from the surface of earth is

The escape velocity of a body from the surface of the earth is equal to

An objects is projected vertically upwards from the surface of the earth with a velocity 3 times the escape velocity v_(e ) from earth's surface. What will be its final velocity after escape from the earth's gravitational pull ?

A projectile is fired from the surface of earth of radius R with a velocity etav_(e) where v_(e) is the escape velocity and eta lt 1 . Neglecting air resistance, the orbital velocity of projectile is -

The escape velocity from the surface of the earth is (where R_(E) is the radius of the earth )

A body is projected from the surface of the earth with thrice the escape velocity (V_(e)) from the surface of the earth. What will be its velocity, when it will escape the gravitational pull?

The acceleration due to gravity on the surface of the moon is one-sixth that on the earth. The radius of the moon is about one-fourth tha tof the earth. If v_(e) is the escape velocity on the surfaceo f the earth, then escape velocity on the surface of the moon will be

A particle of mass 'm' is projected with a velocity v = k V_e (k <1) from the surface of the earth.(Ve = escape velocity)The maximum height above the surface reached by the particle is: