A simplependulam beats seconds on the earth (g=9.8 `ms^(-2)`) is taken to the moon where g=3.96`ms^(-2)`. Find the number of seconds it will lose per day.

A simple pendulam which beats a second on the surface of the earth where g=9.8 ms^(-2) is taken to the top of a hill where it is found to lose 2 s in an hour, What is the hight of the hill ?(Radius of the earth = 6.

A pendulam which keeps correct time at a place where g= 9.81 ms^(-2) it taken to a place where g=9.8 ms^(-2) . Calculate by how much it will lose or gain in a day.

A seconds pendulum at the equator (g = 9.78 ms^(-2)) is taken to the poles (g = 9.83 ms^(-2)) . If it is to act as second's pendulum its length should be

A seconds pendulum is shifted from a place where g = 9.8 m//s^(2) to another place where g = 9.78 m//s^(2) . To keep period of oscillation constant its length should be

A second pendulum is shifted from a plane where g = 9.8 m//s^(2) to another place where g = 9.82 m//s^(2) . To keep period of oscillation constant its length should be

A second's pendulum is taken from a place where g=9.8 ms^(-2) to a place where g=9.7 ms^(-2) .How would its length be changed in order that its time period remains unaffected ?

If the length of seconds pendulum is decreased by 2\%, how many seconds it will lose per day

A pendulum clock giving correct time at a place where g=9.800 ms^-2 is taken to another place where it loses 24 seconds during 24 hours. Find the value of g at this new place.

A second's pendulum is oscillating at a place where g = 9.8 m//s^(2) . If the pendulum is shifted to a place where g = 9.6 m//s^(2) , then to keep this time period unchanged, how much change of length should be introduced ?

A simple pendulum is set up at an unknown planet.The acceleration due to gravity on the surface is 6.2ms^(-2) .Find the time period of the pendulum on the surface of the planet,if its time period on the surface of the earth is 3.5s .Take g=9.8ms^(-2)