A pendulum swings back & forth between two horizontal as shown in the figure, under uniform gravity, then

In the two circuits shown in figure

What is the difference between the two mice as shown as in the figure?

Find the mutual inductance between two rectangular loops, shown in the figure.

Find the mutual inductance between two rectangular loops, shown in the figure.

A conical pendulum consists of a simple pendulum moving in a horizontal circle as shown in the figure. C is the pivot, O the centre of the circle in which the pendulum bob moves and omega the constant angular velocity of the bob. If vecL is the angular momentum about point C , then

The distance between the point of suspension and the centre of gravity of a compound pendulum is l and the radius of gyration about the horizontal axis through the centre of gravity is k , then its time period will be

A simple pendulum consisting of a mass M attached to a string of length L is released from rest at an angle alpha . A pin is located at a distance l below the pivot point. When the pendulum swings down, the string hits the pin as shown in figure. The maximum angle theta which the string makes with the vertical after hitting the pin is

A conducting rod of length l falls verticaly under gravity in a region of uniform magnetic field B . The field vectors are inclined at an angle theta with the horizontal as shown in figure. If the instantaneous velocity of the rod is v , the induced emf in the rod ab is

Two thin rods of same length l but of different uniform mass per unit length mu_(1) and mu_(2) respectively are joined together. The system is ortated on smooth horizontal plane as shown in figure. The tension at the joint will be

A pipe of constant cross - section is bent in a horizontal plane as shown in the figure . Points A and B are located on two different streamlines . Then