A simple pendulum of length 'L' has mass 'M' and it oscillates freely with amplitude energy is
(g = acceleration due to gravity)

A simple pendulum of length 1 m has a mass of 10 gm and oscillates freely with an amplitude of 2 cm. The potential energy at the extreme point (g = 980 frac(cm)(s^2)) is

A simple pendulum with a bob of mass 'm' oscillates from A to C and back to A such that PB is H. If the acceleration due to gravity is 'g' , then the velocity of the bob, as it passes through B, is

Force , acceleration due to gravity, weight , mass

If a simple pendulum has charge ,q and is oscillating in a uniform electric field E in the direction of acceleration due to gravity then its frequency of oscillations

Define write the laws: Gravitional acceleration (g)OR Acceleration due to gravity

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 ?

For an object at infinite distance from the earth, the value of acceleration due to gravity (g) is

What is conical pendulum? Show that its time period is given by 2pi sqrtfrac(lcostheta)(g) , where l is the length of the string, theta is the angle that the string makes with the vertical and g is the acceleration due to gravity.

A simple pendulum of length l has a maximum angular displacement theta . The maximum kinetic energy of the bob of mass m will be

The length of second 's pendulum on the surface of earth is nearly 1 m . Its length on the surface of moon should be [ Given : acceleration due to gravity (g) on moon is 1/6th of that on the earth 's surface]