A right angled triangle abc, made from a metallic wire, moves at a uniform speed v in its plane as shown in . A uniform magnetic field B exists in the perpendicular direction. Find the emf induced (a) in the loop abc, (b) in the segment bc, (c ) in the segment ac and (d) in the segment ab.
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A right angled triangle abc made of a metallic wire, moves at a uniform speed v in its plane as shown in the figure.A uniform magnetic field B exists in the perpendicular direction of plane of triangle.Find the emf induced (a)in the loop abc . (b)in the segment bc ,(c)in the segment ac and (d) in the segment ab .

A metallic square loop ABCD is moving in its own plane with velocity v in a uniform magnetic field perpendicular to its plane as shown in the figure. An electric field is induced

A square loop of edge a having N turns is rotated with a uniform angular velocity omega about one of its diagonals which is kept fixed in a horizontal position. A uniform magnetic field B exists in the vertical direction. Find (a) the emf induced ion the coil as a function of time t (b) the maximum emf induced (c) the average emf induced in the loop over a long period (d) the average of the squares of emf induced over a long period (e) if resistance of loop is R , amount of change flow in time t=0 to t=2T (f) heat produced in time t =0 to =4T

A circular wire loop of radius r lies in a uniform magnetic field B, with its plane perpendicular to magnetic field. If the loop is deformed to a square shape in the same plane in time t, the emf induced in the loop is

A copper wire bent in the shape of a semicircle of radius r translates in its plane with a constant velocity v. A uniform magnetic field B exists in the direction perpendicular to the plane of the wire. Find the emf induced between the ends of the wire if (a) the velocity is perpendicular ot the diameter joining free ends, (b) the velocity is parallel to this diameter.

A square loop of side d is moved with velocity v hati in an non-uniform magnetic field B_0 /a x hatk then the emf induced shown is?

The loop shown moves with a velocity v in a uniform magnetic field of magnitude B , directed into the paper. The potential differene between point P and Q is e. Then

Two particle A and B of masses m_(A) and m_(B) respectively and having the same charge are moving in a plane. A uniform magnetic field exists perpendicular to this plane. The speeds of the particles are v_(A) and v_(B) respectively and the trajectories are as shown in the figure. Then-

Two particles A and B of masses m_(A)andm_(B) respectively and having the same charge are moving in a plane. A uniform magnetic field exists perpendicular to this plane. The speeds of the particles are v_(A)andv_(B) respectively and the trajectories are as shown in the figure. Then -