A rectangular, a square , a circular and...

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 contant velocity `vec(v)=vhati` . The magnetic field is directed along the negative `z`-axis direction. The induced emf, during the passege of these loops , out of the field region, will not remain constant for

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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 :

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 Vvec = v_(0)hati . 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

A rectangular, a square, a circular and an elliptica loop, all in the (x -y) plane, are moving out of a uniform magnetic field with a constant velocity, vecV = vhat i 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 reman constant for:

A rectangular loop and a circular loop are moving out of a uniform magnetic field to a field-free region with a constant velocity 'v' as shown in the figure . Explain the which loop do you expect the induced emf to the constant during the passage out of the field region . The magnetic field is normal to the loops .

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