A uniform magnetic field exista in reign given by . A rod of length 5m placed along y-axis is moved along x-axis with constant speed 1m/sec. The induced emf in the rod will be

A uniform magnetic field existsin region given by vec(B) = 3 hat(i) + 4 hat(j)+5hat(k) . A rod of length 5 m is placed along y -axis is moved along x - axis with constant speed 1 m//sec . Then the magnitude of induced e.m.f in the rod is :

A uniform magnetic field existsin region given by vec(B) = 3 hat(i) + 4 hat(j)+5hat(k) . A rod of length 5 m is placed along y -axis is moved along x - axis with constant speed 1 m//sec . Then the magnitude of induced e.m.f in the rod is :

The magnetic field I nan reigion is given by B=B_(0) (X)/(a)K . A Squrae edges along the x and y axis. The loop is moved with a constant velocity . The emf induced in the loop is

The horizontal component of the earth's magnetic field at a place is 3xx10^(-4)T and the dip is tan^(-1)((4)/(3)) . A metal rod of length 0.25m placed in the north -south position and is moved at a constant speed of 10cm//s towards the east. The emf induced in the rod will be

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 rectangular, a square , a circular and an elliptical loop, all in the (x-y) plane, are moving out of a uniform magnetic field with a constant velocity vec(v)=vhati . The magnetic field is directed along the negative z -axis direction. The induced emf, during the passage of these loops , out of the field region, will not remain constant for :

In the figure shown as uniform magnetic field |B|=0.5T is perpendicular to the plane of circuit. The sliding rod of length l=0.25 m moves uniformly with constant speed v=4ms^-1 . If the resistance of the sllides is 2Omega , then the current flowing through the sliding rod is

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

A uniform magnetic field along a long cylindrical rod varies with time as (B = alpha t) , where alpha is positive constant. The electric field inside the rod as a function of radial distance r from the central axis is proportional to

A rod lies across frictionless rails in a uniform magnetic field vec(B) as shown in figure. The rod moves to the right with speed V . In order to make the induced emf in the circuit to be zero, the magnitude of the magnetic field should