Consider a long solenoid of radius `R` which has `n` turns per unit length. A time dependent current `I=I_(0) sin omegat` flows solenoid, magnitude of electric field at a perpendicular distance `rltR`, from the axis of symmetry of solenoid is found to be `E=(alpha)/4omegamu_(0) nI_(0)r cosomegat`, where `alpha` is pure number and `mu_(0)` is permability of free space. Find `alpha`

A long straight solenoid has n turns per unit length. An alternating current I = I_(m) sin omega t flows throught it. Find the displacement current density as a function of the distnace r from the solenoid equals R .

A long solenoid has a radius a and number of turns per unit length is n . If it carries a current i, then the magnetic field on its axis is directly proportional to

The current in a long solenoid of radius R and having n turns per unit length is given by i= i_0 sin omega t . A coil having N turns is wound around it near the centre. Find (a) the induced emf in the coil and (b) the mutual inductance between the solenoid and the coil.

A long solenoid with closely wound turns has n turns per unit of its length. A steady current I flows through this solenoid. Use Ampere's circuital law to obtain an expression, for the magnetic field, at a point on its axis and close to its mid point.

A solenoid of radius R and length L has a current I = I​_0 cosωt. The value of induced electric field at a distance of r outside the solenoid, is

A tightly wound solenoid of radius 'a' and length 'l' has n turns per unit length. It carries an electric current i. Magnetic field at a distance (l)/(4) from one of the end (inside the solenoid on its axis) is B=(mu_(0)ni(sqrt5+3))/(sqrtK) for l=4a . Then find the value of K.

A long solenoid has n turns per unit length and carries a current i = i_(0) sin omega t . A coil of N turns and area A is mounted inside the solenoid and is free to rotate about its diameter that is perpendicular to the axis of the solenoid. The coil rotates with angular speed omega and at time t = 0 the axis of the coil coincides with the axis of the solenoid as shown in figure. Write emf induced in the coil as function of time.

There is a long solenoid of radius 'R' having 'n' turns per unit length with current i flowing in it. A particle having charge 'q' and mass 'm' is projected with speed 'v' in the perpendicular direction of axis from a Point on its axis. Find maximum value of 'v' so that it will not collide with the solenoid.