The line integral of magnetic field `vec(B)` around any closed path through which current I is flowing is given by ` oint_(c) vec(B).vec(d) l =`

The magnetic field produced around a straight line wire when current flows through it is

If L denotes the inductance of an inductor through which a current i is flowing, the dimensions of Li^(2) are

According to Ampere's law, the line integral of the magnetic induction around a closed path is directly proportion to the enclosed

The magnetic force acting on a conductor of length l carrying a current I placed in field of strength B is given as

For vectors vec(A) and vec(B) making an angle theta which one of the following relation is correct?

D.C.ammeter is connected in a circuit through which an a.c.current of 50 Hz is flowing .The ammeter will read

Equal currents i, i are flowing through two infinitely long parallel wires. What will be the magnetic field at a point midway, when the currents are flowing in the same direction.

Consider a square loop of wire loaded with a glass bulb of mass m hanging vertically, suspended in air with its one part in a uniform magnetic field B with its direction coming out of the plane of paper. Due to the current I flowing through the loop, there is a magnetic force in upward direction calculate the current I in the loop for which the magnetic force would be exactly balanced by the force on mass m due to gravity.

The intensity of magnetic field is expressed in ___. A. Ampere B. volt C. coulomb D. oerested

An electron with charge e enters a uniform. magnetic field vec B with a velocity vec V . The velocity is perpendicular to the magnetic field. The force on the charge e is given by abs(vecF) = B ev Obtain the dimensions of vec B .