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 time period of a simple pendulum of length 9.8 m is

The periodic time of a simple pendulum of length 1 m and amlitude

The acceleration due to gravity is 9.8m//s^(2)

The acceleration due to gravity on the surface of earth is 9.8 ms^(-2) .Time period of a simple pendulum on earth and moon are 3.5 second and 8.4 second respectively. Find the acceleration due to gravity on the moon . Hint : T_(e) = 2pi sqrt((L)/(g_(e))) T_(m)= 2pi sqrt((L)/(g_(m))) (T_(e)^(2))/(T_(m)^(2))= (g_(m))/(g_(e)) g_(m) = (T_(e)^(2))/(T_(m)^(2))g_(e)

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)

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)

Time period of simple pendulum of length l at a place, where acceleration due to gravity is g and period T. Then period of simple pendulum of the same length at a place where the acceleration due to gravity 1.02 g will be

The acceleration due to gravity changes from 9.8 m//s^(2) to 9.5 m//s^(2) . To keep the period of pendulum constant, its length must changes by