For circuit given the kirchoff's loop rule for loop BCDEB is given by equation

For a the current loops shown in the figu re, kirchhoff's loop rule for the loops AHDCBA and AHDEFGA yields these equations respectively.

Kirchoff's junction rule is a reflection of

Kirchoff's junction rule is a reflection of

A circular loop of wire having a radius of 8.0 cm carries a current of 0.20 A . A vector of unit length and parallel to the dipole moment W of the loop is given by 0.60 hati-0.80 hatj . if the loop located in uniform magnetic field given by B= (0.25 T)hati+ (0.30 T)hatk find, (a) the torque on the loop and (b) the magnetic potential energy of the loop.

A small circular loop of wire of radius a is located at the centre of a much larger circular wire loop of radius b. The two loops are in the same plane. The outer loop of radius b carries an alternating current I=I_(0)cos(omegat) . The emf induced in the smaller inner loop is nearly ?

Write equation for Ampere's circuital law for the Amperial loop as shown below (Traverse in the direction shown by arrow mark buton it )

A superconducting loop of radius R has self inductance L . A uniform & constant magnetic field B is applied perpendicular to the plane of the loop. Initially current in this loop is zero. The loop is rotated about its diameter by 180^(@) .Find the current in the loop after rotation.

A uniform circular loop of radius a and resistance R is pulled at a constant velocity v out of a region of a uniform plane of the loop and the velocity are both perpendicular to B. Then the electrical power in the circular loop at the instant when the arc (of the circular loop) outside the region of magnetic field subtends an angle (pi)/(3) at the centre of the loop is

The direction of induced currnet in the right loop in the situation shown by the given figure is

In the given option,the magnetic dipole moment of current loop is independent of