The magnetic field in a region is given by `vecB=B_(0)/Lxhatk` where `L` is a fixed length.A conducting rod of length lies along the `X`-axis between the origin and the point `(L,0,0)`.If the rod moves with a velocity `vecv=v_(0) hatj` the `emf` induced between the ends of the rod.

The magnetic field inn a region is given by vec B = veck (B_0)/(L) y where L is a fixed length. A conducting rod of length L lies along the Y - axis between the origin and the point (0,L, 0). If the rod moves with a velocity v= v_0 veci, find the emf induced between the ends of the rod.

There is a conducting rod of length 2L that lies along x-axis from x=-L to x=L . If rod moves with velocity v=v_0hati in the magnetic field vecB=B_0hatk , then induced EMF between ends of rod is

The magnetic field in a region is given by vec(B)=B_(0)(1+(x)/(a))hat(k) . A square loop of edge length 'd' is placed with its edge along X-axis and Y-axis. The loop is moved with a constant velocity vec(V)=V_(0)hat(i) . The emf induced in the loop is

A metal rod of length I is moved with velocity v in a uniform magnetic field vec B . Emf is induced between the two ends of rod

A conducting rod of length l is rotating with constant angular velocity omega about point O in a uniform magnetic field B as shown in the figure . What is the emf induced between ends P and Q ?

A rod od length l is moving in a vertical plane ( x-y ) when the owest point A of the rod is moved with a velociy v . find the a angular velocity of the rod and b velocity of the end B .

A glass rod of length l moves with velocity in a uniform magnetic field B. What is the e.m.f. induced in the rod ?