A rectangular loop of wire ABCD is kept close to an infinitely long wire carring a current I (t) `= I_(0) (1 = t//T)` for `0 le t le` and I (0) for t gt T, Fig. Find the total charges passing through a given point in the loop, in time T. resistance of the loop is R

A rectangular loop of wire ABCD is kept close to an infinitely long wire carrying a current I (t) = I_(0) (1 - t//T) for 0 le t le T and I(0) = 0 for t>T, Fig. Find the total charge passing through a given point in the loop, in time T. resistance of the loop is R

A rectangular loop of wire ABCD is kept close to an infitely long wire carrying a current I(t)=I_0(1-t/T) for 0 le t le T and I(0)=0 for t >T (Fig. EP 6.26). Find the total charge passing through a given point in the loop, in time T. The resistance of the loop is it

A rectangular loop of wire ABCD is kept close to an infinitely long wire carrying a current I(t)=I_0 (1-t/T) for 0 le t le T and I(0)=0 for t gt T as shown in figure. Find the total charge passing through a given point in the loop, in time T. The resistance of the loop is R.

Consider an infinitely long wire carrying a current I (t), With (dI)/(dt) = lambda = constant . Find the current produced in the rectangular loop of wire ABCD if its resistance is R, Fig

Consider an infinitely long wire carrying a current I (t), With (dI)/(dt) = lambda = constant . Find the current produced in the rectangular loop of wire ABCD if its resistance is R, Fig

Consider an infinitely long wire carrying a current I(t), with (dI)/(dt)=lambda = constant. Find the dt current produced in the rectangular loop of wire ABCD if its resistance is R as in figure.

A rectangular loop of wire of size 4 cm xx 10 cm carries a steady current of 2A. A straight long wire carrying 5A current is kept near the loop If the loop and the wire are coplanar, find (i) the torque acting on the loop and (ii) the magnitude and direction of the force on the loop due to the current carrying wire(fig).

A stationary circular loop of radius a is located in a magnetic field which varies with time from t = 0 to t = T according to law B = B_(0) t(T - t) . If plane of loop is normal to the direction of field and resistance of the loop is R, calculate amount of heat generated in the loop during this interval.

A stationary circular loop of radius a is located in a magnetic field which varies with time from t = 0 to t = T according to law B = B_(0) t(T - t) . If plane of loop is normal to the direction of field and resistance of the loop is R, calculate amount of heat generated in the loop during this interval.