`PQ` is an infinite current carrying conductor. `AB` and `CD` are smooth conducting rods on which a conductor `EF` moves with constant velocity `v` as shown. The force needed to maintain constant speed of `EF` is

A conducting circular loop of radius a and resistance per unit length R is moving with a constant velocity v_0 , parallel to an infinite conducting wire carrying current i_0 . A conducting rod of length 2a is approaching the centre of the loop with a constant velocity v_0/2 along the direction 2 of the current. At the instant t = 0 , the rod comes in contact with the loop at A and starts sliding on the loop with the constant velocity. Neglecting the resistance of the rod and the self-inductance of the circuit, find the following when the rod slides on the loop. (a) The current through the rod when it is at a distance of (a/2) from the point A of the loop. (b) Force required to maintain the velocity of the rod at that instant.

A conducting rod is moved with a constant velocity v in a magnetic field. A potential difference appears across the two ends

The end B of the rod AB which makes angle theta with the floor is being pulled with a constant velocity v_(v) as shown. The length of the rod is l .

Two parallel long straight conductors lie on a smooth plane surface. Two other parallel conductors rest on them at right angle so as to form a square of side a. A uniform magnetic field B exists at right angle to the plane containing the conductors. Now, conductors starts moving outward witha constant velocity v_0 at t=0 . Then, induced current in the loop at any time is (lamda is resistance per unit length of the conductors)

In the above question find the force required to move the rod with constant velocity v , and also find the power delivered by the external agent.

Consider a uniform magnetic field B perpendicular to the plane. The conducting rod moves towards right with a constant velocity v as shown in the figure. When the rod is at a distance x=R/2 from the centre the current through the capacitor takes the value (2BCv^(2))/(sqrt(nR)) . Find 'n'

PQ is a long straight conductor carrying a current of 3 A as shown in figure below. An electron moves with a velocity of 2 xx 10^7ms^(-1) parallel to it. Find the force acting on the electron.

Three infinite current carrying conductors are placed as shown in Fig. Two wires carry same current while current in third wire is unknown. The three wires are electrically insulated from each other and all of them are in the plane of paper. Which of the following is correct about point P which is also in the same plane?

In the figure shown a long conductor carries constant current I . A rod PQ of length l is in the plane of the rod.The rod is rotated about point P with constant angular velocity omega as shown in the figure.Find the e.m.f induced in the rod in the position shown.Indicate which points is at high potential.

The current carrying wire and the rod AB are in the same plane. The rod moves parallel to the wire with a velocity v . Which one of the following statements is true about induced emf in the rod