A wire of cross-sectional area A forms three sides of a square and is free to rotate about axis OO'. If the structure is deflected by an angle `theta` from the vertical when current i is passed through it in a magnetic field B acting vertically upward and density of the wire is `rho`, then the value of `theta` is given by

A wire bent in the form of a sector of radius r subtending an angle theta^(@) at centre as shown in figure is carrying a current I. The magnetic field at O is :

When current is passed through a circular wire prepared from a conducting material, the magnetic field produced at its centre is B. Now a loop having two turns is prepared from the same wire and the same current is passed through it. The magnetic field at its centre will be :

A wire of length l is formed into a circular loop of one turn only and is suspended in a magnetic field B. When a current i is passed through the loop, the maximum torque experienced by it is

A stationary horizontal disc is free to rotate about its axis. When a torque is applied on it its, kinetic energy as a function of theta , where theta is the angle by which it has rotated, is given as k theta . If its moment of inertia is I then the angular acceleration of the disc is :

A moving coil galvanometer coil has a coil of area A, number of turns N. The radial magnetic field present is B. the moment of inertia of the coil is I about its rotation axis. The torque is applied by the magnetic field on the coil of the galvanometer when current I_(0) passes through it and produces a deflection of pi//2 of the pointer. Then answer the following questions based on the paragraph. Then the value of torsionl constant of the spring is

A circular coil of radius 20 cm and 20 turns of wire is mounted vertically with its plane in magnetic meridian.A small magnetic needle (free to rotate about vertical axis) is placed at the center of the coil.It is deflected through 45^(@) when a current is passed through the coil and in equilbrium (Horizontal component of earth's field is 0.34 xx 10^(-4) T ).The current in coil is:

A straight peice of conducting wire with mass M and length L is placed on a frictionless incline tilited at an angle theta from the horizontal (as shown in fig) There is a uniform. Vertical magnetic field at all points (produced by an arrangement of magnets not shown in fig. To keep the wire from sliding down the incline, a voltage source is attached to the ends of the wire. When just the right amount of current flows through the wire, the wire remains at rest. Determine the magnitude and direction of the current in the wire that will cause the wire to remain at rest.

A wire of length l is bent in the form of an equilateral triangle and carries an electric current i. (a) Find the magnetic field B at the centre. (b) If the wire is bent in the form of a square, what would be the value of B at the centre?

The specific resistance and area of cross section of the potentiometer wire are rho' and A respectively. If a current i passes through the wire, its potential gradient will be

A current - carrying wire of certain length is bent to form an arc that substends an angle theta at the centre. Let B be the magnetic field at the centre due to this wire. The correct graph between B and theta is