A uniform square plate at side `a` is hinged at one at its comes it is suspended such than it can rotate about horizontal axis. The time period of small oscillation about its equilibrium position.

A square plate of mass M and side length L is hinged at one of its vertex (A) and is free to rotate about it. Find the time period of small oscillations if (a) the plate performs oscillations in the vertical plane of the figure. (Axis is perpendicular to figure.) (b) the plate performs oscillations about a horizontal axis passing through A lying in the plane of the figure.

A uniform ring of radius 'R' is suspended from a horizontal nail 'A' as shown. Find time period of its small oscillations.

A uniform meter stickis suspended through a small pin hole at the 10 cm mark. Find the time period of small oscillation about the point of suspension.

A sphere is made to oscillate about a horizontal tangential axis. Determine time period.

A uniform rod of mass m and length l is suspended about its end. Time period of small angular oscillations is

A massless rod of length L has two equal charges (q) tied to its ends. The rod is free to rotate in horizontal plane about a vertical axis passing through a point at a distance (L)/(4) from one of its ends. A uniform horizontal electric field (E) exists in the region. (a) Draw diagrams showing the stable and unstable equilibrium positions of the rod in the field. (b) Calculate the change in electric potential energy of the rod when it is rotated by an angle Deltatheta from its stable equilibrium position. (c) Calculate the time period of small oscillations of the rod about its stable equilibrium position. Take the mass of each charge to be m.

A simple pendulum of length l is suspended in a car that is travelling with a constant speed v around a circle of radius r . If the pendulum undergoes small oscillations about its equilibrium position , what will its freqeuency of oscillation be ?

The rotation of earth about its axis is

A uniform stick of length l is mounted so as to rotate about a horizontal axis perpendicular to the stick and at a distance d from the centre of mass. The time period of small oscillation has a minimum value when d//l is