A small magnet M is allowed to fall through a fixed horizontal conducting ring. Let `g` be the acceleration due to gravity. Then the acceleration of M will be

Spot the wrong statement : The acceleration of due to gravity , g , decreased if

A bar magnet is allowed to fall vertically through a copper coil placed in a horizontal plane. The magnet falls with a net acceleration

The acceleration due to gravity becomes (g/2) where g = acceleration due to gravity on the surface of the earht at a height equal to

The velocity of the wave v depends upon the wave length, density of water 'd' and acceleration due to gravity g Then :

Calculate the period of a simple pendulum of length 0.98 m at a place where acceleration due to gravity is 9.8ms^(-2) .

A particle starting from rest falls from a certain height. Assuming that the value of acceleration due to gravity remains the same throughout the motion is displacement in three successive half second intervals are S_1.S_2.S_3 then S_1.S_2.S_3 is given by :