Time period of small oscillation (in a verical plane normal to the plane of strings) of the bob in the arrangement shown will be

The time period of small oscillations of mass m :-

Let theta denote the angular displacement of a simple pendulum oscillating in a vertical plane. If the mass of the bob is m, the tension in the string is mg cos theta

A simple pendulum oscillates in a vertical plane. When it passes through the mean position, the tension in the string is 3 times the weight of the pendulum bob.what is the maximum displacement of the pendulum with respect to the vertical

Find the time period of osciallation in the shown arrangement.

Time period for small oscillations in vertical x - y plane of uniform semi - circular disk of mass m and radius R , about horizontal axis through point O, is equal to

Two light strings, each of length l are fixed at points A and B on a fixed horizontal and xy A small are making angle 45^(@) with the bob if the bob is displaced normal to the plane of the string and released then period of the resulting small oscillation will be

The time period of oscillation of the block as shown in figure is

A: If a spring block system, oscillating in a vertical plane is made to oscillate on a horizontal surface, the time period will remain same. R: The time period of spring block system does not depend on g.

What is the period of oscillation of a simple pendulum if its bob is made of ice ?

The bob of the pendulum shown in figure describes an arc of a circle in a vertical plane. If the tension in the cord is 2.5 times the weight of the bob for the position shown. Find the velocity and the acceleration of the bob in that position.