Two circular loops of equal radii are placed coaxially at some separation. The first is cut and a battery is inserted in between to drive a current in it. The current changes slightly because of the variation in resistance with temperature. During this period, the two loops

Two resistors having equal resistances are joined in series and a current is passed through the combination. Neglect any variation in resistance as the temperature changes. In a given time interval,

Two circular coils A and B are placed close to each other. If the current in the coil A is changed, will some current be induced in the coil B? Give reason.

Two conducting circular loops of radii R_1 and R_2 are placed in the same plane with their centres coincidingt. Find the mutual inductane between them assuming R_2ltltR_1 .

A square loop and a circular loop are placed concentrically in the same plane as shown. Current in square loop is i_1 and that in circular loop is i_2 but in opposite sense. What should be the value of i_1//i_2 such that magnetic field at centre is zero? (the two loops are insulated from each other)

Find the mutual inductance between two coaxial loops of radii R and r (R gtgt r) with separation between the centre x.

Two circular loops lie side by side in the same plane. One is connected to a source that supplies an increasing current, the other is a simple closed ring. Is the induced current in the ring is in the same direction as that in the loop connected to the source or opposite? What if the current in the first loop is decreasing?

Two circular, similar, coaxial loops carry equal currents in the same direction. If the loops are brought nearer, what will happen?

Two circular, similar, coaxial loops carry equal currents in the same direction. If the loops are brought nearer, what will happen?

A conducting rod of length l slides at constant velocity v on two parallel conducting rails, placed in a uniform and constant magnetic field B perpendicular to the plane of the rails as shown in Fig.3.49. A resistance R is connected between the two ends of the rails. (a) Idenify the cause which produces change in magnetic flux. (b) Identify the direction of current in the loop. ( c) Determine the emf induced in the loop. (d) Compute the electric power dissipated in the resistor. (e) Calcualte the mechenical power required to pull the rod at a cinstant velovity.

Two circular loops having same radius [ R = 10 cm] and same current (7)/(2)A are placed along same axis as shown. If distance between their centre is 10 cm. find net magnetic field at of point P.