Current I flows through solenoid of length L having N number of turns, when it is connected to DC emf. If charged particle is projected along the axis of solenoid with a speed `v_(0)`, them find the force on the charged particle in the solenoid.

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.

A tightly- wound, long solenoid is kept with its axis parallel to a large metal sheet carrying a surface current. The surgace current through a width dl of the sheet is Kdl and the number of turns per unit length of the solenoid is n. The magnetic field near the centre of the solenoid is found to be zero. (a) find the current in the solenoid. (b) If the solenoid is rotated to make its axis perpendicular to the metal sheet, what would be the magnitude of the magnetic field near its centre?

If a charged particle is projected on a rough horizontal surface with speed v_(0) . Find the value of dynamic coefficient of friction, if the kinetic energy of system is constant.

A long solenoid of length l=2.0 m , radius r=0.1 m and total number of turns N=1000 is carrying a current i_(0)=20.0A . The axis of the solenoid coincides with the z-axis. (a) State the expression for the magnetic field of the solenoid and calculate its value ? Magnetic field. (b) Obtain the expression for the self - inductance (L) of the solenoid. Calculate its value. Value of L .

An electron gun is placed inside a long solenoid of radius R on its exis. The solenoid has n turns/Length and carries a current I. The electron gun schoots an electron along the radius of the solenoid with speed v.If the electron does not hit the surface of the solenoid, maximum possible value of v is (all symbols have their standard meaning):

An iron core solenoid of length l and cross-sectional area A having N turns on it is connected to a battery through a resistance as shown in the figure. At instant t=0 , the iron rod of permeability mu from the core is abruptly removed. Find the current as a function of time.

A long straight wire carries a current i. A particle having a positive charge q and mass m, kept at distance x_0 from the wire is projected towards it with speed v. Find the closest distance of approach of charged particle to the wire.

Two magnetic dipoles are lying as shown in figure. The separation 'd' between them is very large. A point charge Q is projected with some speed v as shown. The force experienced by the charged particle is :

A solenoid of length 'l' has N turns of wire closely spaced, each turn carrying a current i. If R is cross sectional radius of the solenoid, the magnetic induction at 'P'(only axial component).

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