Consider the situation shown in figure. The straight wire is fixed but the loop can move under magnetic force. The loop will

Consider circuit as shown in figure. The current through wire AB is

An infinite straight current carrying conductor is bent in such a way that a circular loop is formed on it as shown in the figure. If the radius of the loop is R, the magnetic field at the centre of the loop is ..........

For the situation shown in the figure, what should be the value of force required to move the rod with constant velocity v = 2 m/s ?

Consider the situation shown in figure. Water (mu_(W) = (4)/(3)) is filled in a breaker upto a height of 10 cm . A plane mirror fixed at a height of 5 cm from the surface of water. Distance of image from the mirror after reflection from it of an object O at the bottom of the beaker is

Find the current in the wire for the configuration shown in figure. Wire PQ has negligible resistance. vecB , the magnetic field is coming out of the paper. theta is a fixed angle made by PQ travelling smoothly over two conducting parallel wires separated by a distance d.

In the situation shown in figure, both the pulleys and the strings are light and all the surfaces are frictionless. The acceleration of mass M, tension in the string PQ and force exerted by the clamp on the pulley, will respectively be -

(a) Obtain an expression for the mutual inductance between a long straight wire and a square loop of side a as shown in figure. (b) Now assume that the straight wire carries a current of 50 A and the loop is moved to the right with a constant velocity, v = 10 m/s. Calculate the induced emf in the loop at the instant when x = 0.2 m. Take a = 0.1 m and assume that the loop has a large resistance.

Consider a closed loop C in a magnetic field as shown in figure. The flux passing through the loop is defined by choosing a surface whose edge coincides with the loop and using the formula phi=vecB_1 . dvecA_1 + vecB_2 . dvecA_2 +…. Now if we choose two different surfaces S_1 and S_2 having C as their edge, would we get the same answer for flux. Justify your answer.

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.