A long cylinder of iron having cross sectional area `6 cm^2` . It is kept inside a long solenoid having 4000 turns per metre. Current flowing in the solenoid is 1.5 A. Magnetic field developed inside the core is 3.14 T. Calculate pole strength developed in the core.

A long solenoid has n turns per metre and current IA is flowing through it. The magnetic field induciton at the ends of the solenoid is

The strength of the magnetic field in a long solenoid having 5000 turns per meter is 3.14x 10^(-2)T . The current flowing through the solenoid is

A long, cylindrical iron core of cross-sectional area 5.00 cm^2 is inserted into a long solenoid having 2000 tunres m^(-1) and carrying a current 2.00 A . The magnetic field inside the core is found to be 1.57 T . Neglecting the end effects, find the magnetization I of the core and the pole strength developed.

A long solenoid has 200 turns per cm and carries a current of 2.5A. The magnetic field at its centre is

The magnetic field on the axis of a long solenoid having n turns per unit length and carrying a current is

A thin solenoid of length 0.4 m and having 500 turns of wire carries a current 1A ,then find the magnetic field on the axis inside the solenoid.

The magnetic field inside a long solenoid having 50 turns cm^(-1) is increased from 2.5 xx 10^(-3) T to 2.5 T when an iron core of cross-sectional area 4 cm^2 is inserted into it. Find (a) the current in the solenoid, (b) the magnetization I of the core and (c) the pole strength developed in the core.

An infinite long solenoid having n turns per unit length is shown in figure. The magnetic field at P, when a current I is flowing through it would be