A moving coil galvanometer has a 50-turn coil of size `2cm xx 2cm`. It is suspended between the magnetic poles producing a magnetic field of `0.5 T`. Find the torque on the coil due to the magnetic field when a current of `20mA` passes through it.

A moving coil galvanometer has 100 turns and each turn has an area 2.0 cm^2 . The magnetic field produced by the magnet is 0.01 T . The deflection in the coil is 0.05 radian when a current of 10 mA is passed through it. Find the torsional constant of the suspension wire.

A circular loop of area 1cm^2 , carrying a current of 10 A , is placed in a magnetic field of 0.1 T perpendicular to the plane of the loop. The torque on the loop due to the magnetic field is

A uniform magnetic field of 0.20 xx 10^(-3) T exists in the space. Find the the change in the magnetic scalar potential as one moves through 50cm along the field.

A flat search coil of 100 turns and each of area 3xx10^(-4)m^(2) is connected to a galvanometer, so that the total resistance of the circuit is 90Omega . The plane of the coil is normal to a magnetic field, B = 0.4T. Calculate the change in flux when the coil is moved to a region of negligible magnetic field and the charge passes through the galvanometer.

A tangent galvanometer has 66 turns and the diameter of its coil is 22cm. It gives a deflection of 45^@ for 0.10 A current. What is the value of the horizontal component of the earth's magnetic field?

Torque is experienced by a current carrying rectangular coil placed in a magnetic field.” Can this principle be used to detect feeble current?

A 100 turns coil of area of cross section 200 cm^(2) having 2Omega resistance is held perpendicular to a magnetic field of 0.1 T. it its is removed from the magnetic field in one second , the induced charge produced in it is

A rectangular coil of 100 turns has length 5 cm and width 4 cm. it is placed with its plane parallel to a uniform magnetic field and a current of 2 A is sent through the coil. Find the magnitude of the magnetic field B, if the torque acting on the coil is 0.2 Nm^(-1).

A current - carrying circular coil of 100 turns and radius 5.0 cm produces a magnetic field of (6.0 xx 10 ^-5) T at its centre. Find the value of the current.