A `TG` has 500 turns, each of radius`2picm`. If `B_(H)=3.6xx10^(-5)Wb//m^(2)`, The deflection due to `7.2mA` current is

A solenoid of length 0.2m has 500 turns on it. If 8.71 xx 10^(-6) "Weber"//m^(2) be the magnetic field at an end of the solenoid, then the current flowing in the solenoid is –

A tangent galvanometer gives a deflection of 30^(@) whewn a current of 250 mA is passed through its coil. If the radius of the coil is 8 cm and B_(H)=2.5xx10^(-5)Wbm^(-2) . Find the length of the wire used in winding the coil.

A current of 5.0 A is passed through the coil of a galvanometer having 500 turns and each turns has an average area of 3xx10^(-4) m^(2) if a torque of 1.5 N-m is required for this coil carrying same current to set it parallel to a magnetic field calculate the strength of the magnetic field

A 0.5 m long solenoid has 500 turns and has a flux density of 2.52 xx 10^(-3) T at its centre. Find the current in the solenoid.

A coil has 600 turns which produces 5 xx 10^-3 Wb//turn of flux when 3 A current flows in the wire. This produced 6 xx 10^-3 Wb/turn in 1000 turns secondary coil. When the opened, the current drops to zero in 0.2 s in primary. Find (a) mutual inductance, (b) the induced emf in the secondary, (c) the self-inductance of the primary coil.

A current of 2 A is made to flow through a coil which has only one turn. The magnetic field produced at the centre is 4pi xx 10^(-6) "Wb"//m^(2). the radius of the coil is

The number of turns in a long solenoid is 500. The area of cross-section of solenoid is 2xx10^(-3)m^(2) . If the value of magnetic induction , on passing a current of 2 amp , through it is 5xx10^(-3) Tesla, the magnitude of magnetic flux connected with it in Webers will be __