A solenoidal coil has 50 turns per centimetre along its length and a cross-sectional area of `4xx10^(-4)m^(2)`. 200 turns of another wire is wound round the first solenoid co-axially. The two coils are electrically insulated from each other. Calculate the mutual inductance between the two coils.

An air cored solenoid is of length 0.3 m, area of cross section 1.2 xx 10^(-3) m^(2) and has 2500 turns. Around its central section, a coil of 350 turns is wound. The solenoid and the coil are electrically insulated from eachother. Calculate the e.m.f. induced in the coil if the initial current of 3 A in the solenoid is reversed in 0.25 s.

The self inductance of a solenoid that has a cross-sectional area of 1 cm^(2) , a length of 10 cm and 1000 turns of wire is

A solenoid of cross-sectional area 2xx 10^(-4)m^(2) and 900 turns has 0.6A m^(2) magnetic moment. Then the current flowing through it is

A solenoid of length 50cm with 20 turns per centimetre and area of cross-section 40cm? completely surrounds another coaxial solenoid of the same length, area of cross-section 25cm^(2) with 25 turns per centimetre. Calculate the mutual inductance of the system.

Two insulated wires are wound on the same hollow cylinder, s as to from two solenoids shering a common air-filled core. Let l be the length of the core, A the cross -sectional area of the core, N_(1) the number of times the first wire is wound around the core, and N_(2) the number of times the second wire is wound around the core. Find the mutual inductance of the two solenoids, neglecting the end effects.

Two insulated wires are wound on the same hollow cylinder so as to form two solenoids sharing a common air-filled core. Let l be the length of the core, A the cross -sectional area of the core, N_(1) the number of times the first wire is wound around the core, and N_(2) the number of times the second wire is wound around the core. Find the mutual inductance of the two solenoids, neglecting the end effects.

An ideal solenoid of cross-sectional area 10^(-4)m^(2) has 500 turns per metre. At the centre of this solenoid, another coil of 100 turns is wrapped closely around it. If the current in the coil changes from 0 to 2 A in 3.14 ms, the emf developed in the second coil is

A solenoid of length 20cm, area of cross- section 4.0 cm^2 and having 4000 turns is placed inside another solenoid of 2000 turns having a cross - sectional area 8.0cm ^2 and length 10 cm . Find the mutual inductance between the solenoids.

A solenoid has 2000 turns would over a length of 0.30 m. The area of its cross-section is 1.2xx10^(-3)m^(2) . If an initial current of 2 A in the solenoid is reversed in 0.25 s, then the emf induced in the coil is

A solenoid of lenght 30 cm with 10 turns per centimetre and area of cross-section 40cm^(2) completely surrounds another co-axial solenoid of same length, area of cross-section 20cm^(2) with 40 turns per centimetre. The mutual inductance of the system is