Two parallel long straight conductors lie on a smooth horizontal surface. Two other parallel conductor rest on them at right angles so as from B exits vertical. A uniform magnetic field B exists a vertical direction. Now all the four conductors stock moving outwards with a constant velocity v. The induced emf e and induced current i will vary wide time t as

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)

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)

Two parallel, long, straight conductors lie on a smooth plane surface. Two other parallel conductors rest on them at right angles so as to form a square of side a initially. A uniform magnetic field B exists at right angles to the plane containing the conductors. Now they start moving out with a constant velocity (v). Will the induced emf be time dependent?

Two parallel, long, straight conductors lie on a smooth plane surface. Two other parallel conductors rest on them at right angles so as to form a square of side a initially. A uniform magnetic field B exists at right angles to the plane containing the conductors. Now they start moving out with a constant velocity (v). Will the current be time dependent?

Two parallel long straight conductors lie on a smooth surface. Two other parallel conductors rest on them at right angless so as to form a square of side a initially. A uniform magnetic field B exists at right angles to the plane containing the conductors. They all start moving out with a constant velocity v. If r is the resistance per unit length of the wire the current in the circuit will be

Two parallel, long, straight conductor lie on a smooth plane surface. Two other parallel so as to form a square of side a initially. A uniform magnetic field B exists at right angles to the plane containing the cinductors. Now they start moving out with a constant velocity v . (A) Will the induced emf be time dependent? (b) Will the current be time dependent ?

Two parallel, long, straight conductor lie on a smooth plane surface. Two other parallel so as to form a square of side a initially. A uniform magnetic field B exists at right angles to the plane containing the cinductors. Now they start moving out with a constant velocity v . (A) Will the induced emf be time dependent? (b) Will the current be time dependent ?

A straight conductor 1 meter long moves a right angles to both, its length and a uniform magnetic field. If the speed of the conductor is 2.0 ms^(-1) and the strength of the magnetic field is 10^(4) gauss, find the value of induced emf in volt.