Assuming that the moon is a sphere of the same mean density as that of the earth and one quarter of its radius the length of a seconds on the moon (its length on the earth's surface is `99.2cm)` is .

The weight of an object on the moon is equal to of its weight on the earth.

If rho is the mean density of the earth and R is its radius, then the critical speed of a satellite revolving very close to the surface of earth is :

The acceleration due to gravity on the moon is (1)/(6) th the acceleration due to gravity on the surface of the earth. If the length of a second's pendulum is 1 m on the surface of the earth, then its length on the surface of the moon will be

The length of a second's pendulum on the surface of Earth in 1m. What will be the length of a second's pendulum on the moon?

The length of a second's pendulum on the surface of earth is 1 m. What will be the length of a second's pendulum on the moon?

The length of a second’s pendulum at the surface of earth is 1 m. The length of second’s pendulum at the surface of moon where g is 1/6th that at earth’s surface is

The value of g on moon is 1/6th of its value on the earth . If a person weighs 14N on the moon's surface, then the weight of the person on earth's surface is

The ratio of the radius of the earth to that of the motion is 10. the ratio of the acceleration due to gravity on the earth to that on the moon is 6. The ratio of the escape velocity from the earth's surface to that from the moon is

The ratio of the radius of the earth to that of moon is 10 . The ratio of acceleration due to gravity on the earth and on the moon is 6 . What is the ratio (in intergral value) of the escape velocity from the earth's surface to that from the moon?