The acceleration due to gravity at a place is `pi^(2)m//s^(2)`. Then, the time period of a simple pendulum of length 1 m is

The period of a simple pendulum of infinite length is

The acceleration due to gravity on the surface of moon is 1.7 ms ^-2 . What is the time period of a simple pendulum on the surface of moon if its time period of the surface of earth is 3.5 s ? (g on the surface of the earth is 9.8 ms^-2

The acceleration due to gravity is determined by using a simple pendulum of length l = (100 pm 0.1)cm . If its time period is T = (2 pm 0.01)s , find the maximum percentage error in the measurement of g.

If the earth stops rotating then the time period of a simple pendulum at the equator would be

Acceleration due to gravity at earth's surface is 10ms^(-2) . The value of acceleration due to gravity at the surface of a planet of mass (1/5)^(th) and radius 1/2 of the earth is

Two simple pendulum A and B of lengths 1.69m and 1.44m start swinging at the time from a location where acceleration due to gravity is 10ms^(-1) . Answer the following question. After how much time, the two pendulums will be in phase again ?

The value of acceleration due to gravity is 980 cm s^(-2) . What will be its value if the unit of length is kilometer and that of time is minute?

A pendulum has time period T . If it is taken on to another planet having acceleration due to gravity half and mass 9 times that of the earth then its time period on the other planet will be

The acceleration due to grivity on the planet A is 9 times the acceleration due to gravity on planet B. A man jumps to a height of 2 m on the surface of A. What is the height of jump by the same person on the planet B?

The acceleration due to gravity at a height (1//20)^(th) the radius of the earth above earth s surface is 9m//s^(2) Find out its approximate value at a point at an equal distance below the surface of the earth .