The self inductance L of a solenoid of length l and area of cross-section A, with a fixed number of turns N increases as

The self inductance of the coil is L.Keeping the length and area same,the number of turns in the coil is increased to four times.The self induction of the coil will now be

How is electrical conductance of a conductor related with length and area of cross section of the conductor ?

Young's modulus for a wire of length L and area of cross-section A is Y. What will be Young's Modulus for wire of same material, but half its original length and double its area?

The resistance of a conductor of length x is r. If its area of cross section is a, what is its resistivity? What is its unit?

An air cored solenoid with length 30 cm, area of cross section 25 cm^2 and number of turns 500, carries a current of 2.5A. The current is suddenly switched off in a brief time of 10^-3s. How much is the average back emf induced across the ends of the open switch in the circuit? Ignore the variation in magnetic field near the ends of the solenoid.

A metal wire of length L_1 and area of cross-section A is attached to a rigid support. Another metal wire of length L_2 and of the same cross-sectional area is attached to free end of the first wire. A body of mass M is then suspended from the free end of the second wire. If Y_1 and Y_2 are the Young's moduli of the wires respectively, the effective force constant of the system of two wire is

Calculate the self-inductance of a coaxial cable of length l and carrying a current I.The current flows down the inner cylinder with radius a, and flows out of the outer cylinder with radius b.

Consider the two idealised systems, i) a parallel plate capacitor with large plates and small separation and ii) a long solenoid of length L >> R, radius of cross-section . In (i) E is ideally treated as a constant between plates and zero outside. In (ii) magnetic field is constant inside the solenoid and zero outside. These idealised assumptions,however,contradict fundamental laws as below