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 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.

The time period of a 2m long simple pendulum is 2 seconds. Find the value of 'g' at that place?

A pendulum clock gives correct time at 20^C at a place where g =9.800 m s^(-2) .The pendulum consists of a light steel rod connected to a heavy ball. It is taken to a different place where g =9.788 m s^(2) . At what temperature will it give correct time ? coefficient of linear expansion of steel = 12 xx 10^(-6) 0^C(-1) .

A pendulum clock, keeps correct time at sea level, when taken to a place 1km below sea level, the clock loses or gain per day will be

If a pendulum clock, keeps correct time at sea level is taken to a place 16 km below sea level, the clock will approximately

The length of seconds pendulum at a place wl}ere g = 4.9 m/ s^2 is

A pendulum clock gives correct time at 20^(@)C at a place where g= 10m//s^(2) . The pendulum consists of a light steel rod connected to a heavy ball. If it is taken to a different place where g = 10.01m//s^(2) at what temperature the pendulum gives correct time ( alpha of steel of 10^(-5//@)C )

If a pendulum clock keepds correct time at sea level is taken to a place 1 km above sea level the clock will approximately

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 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