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, the velocity of bob as it passes through B is

A sphere fo mass m makes SHM in a hemispherical bowl ABC and it moves from A to C and back to A via ABC, so that PB = h. If acceleration due to gravity is g, the speed of the ball when it just crosses the point B is

A simple pendulum with a bob of mass m is suspended from the roof of a car moving with horizontal acceleration a

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

A simple pendulum of length 1 oscillates aboμt the mean position as shown in the figure. If the total energy of the pendulum is E, the velocity of the pendulum bob of mass m at point P is:

A simple pendulum of length l and bob of mass m is displaced from its equilibrium position O to a position P so that hight of P above O is h . If is then released. What is the tension in the string when the bob passes through the through the equilibrium position O ? Neglect friction. v is the velocity of the bob at O

STATEMENT -1 : If a simple pendulum is in a carriage which is accelerating downward and acceleration is greater than acceleration due to gravity , then pendulum turns up side down and oscillates about highest point. and STATEMENT -2 : The time period of pendulum will be independent of g in above case of pendulum oscillating about highest point.

Consider a simple pendulum having a bob attached to a string that oscillates under the action of a force of gravity. Suppose that the period of oscillation of the simple pendulum depends on its length (I), mass of the bob (m) and acc. due to gravity (g). Derive the expression for its time period using method of dimensions.

A simple pendulum is oscillating with angular displacement 90^(@) For what angle with vertical the acceleration of bob direction horizontal?

A simple pendulum of length 1 m with a bob of mass m swings with an angular amplitude 30^(@) . Then (g= 9.8m//s^(2)

A simple pendulum consists of a bob of mass m and a light string of length l as shown in the fig. another identical ball moving with the small velocity v_0 collides with the pendulum's bob and sticks to it. For this new pendulum of mass 2 m, mark out the correct statements (s).