The escape velocity at the surface of Earth is approximately 8 km/s. What is the escape velocity for a planet whose radius is 4 times and whose mass is 100 times that of Earth?

What is the value of escape velocity of earth?

The ratio of escape velocity at earth (v_e) to the escape velocity at a planet (v_p) whose radius and mean density are twice as that of earth is

The escape velocity of a body on the surface of earth is 11.2 km/ s. If the earth's mass increases to twice its present value and the radius of the earth becomes half, the escape velocity would become

Where is the escape velocity of a body greater -from the earth or from the moon ?

The value of the escape velocity from the earth is v_e . If the radius of a planet is 4 times that of the earth and its density is 9 times the density of the earth, then the value of the escape velocity from that planet will be

Define escape velocity. Show that the escape velocity of a body from earth is independent on its mass.

How does the escape velocity of a body from the earth depend on the mass of the body thrown ?

From the surface of a planet, the escape velocity of all bodies - heavy or light - is …….. [Fill in the blanks]