A uniform magnetic field ofinduction B = 1T exists in acircular region of radius13R =A Loop of radius13m.2R =encloses themagnetic field at t = 0 andthen pulled at a uniformspeed v = 1 m/s in theplane of the paper. Find theinduced EMF in volts in theloop at t = 1 s%3D

Let R denote the radius of both the loop and the circular region of the magnetic field, t denotes…

A uniform magnetic field of induction B = 1T exists in a circular region of radius 13 R V 2 R =, -т .A Loop of radius 13 R =. 2 encloses the magnetic field at t = 0 and then pulled at a uniform speed v = 1 m/s in the plane of the paper. Find the induced EMF in volts in the loop at t = 1 s

A uniform magnetic field of induction B = 1T exists in a circular region of radius 13 R V 2 R =, -т .A Loop of radius 13 R =. 2 encloses the magnetic field at t = 0 and then pulled at a uniform speed v = 1 m/s in the plane of the paper. Find the induced EMF in volts in the loop at t = 1 s

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Question

A uniform magnetic field of
induction B = 1T exists in a
circular region of radius
13
R =
A Loop of radius
13
m.
2
R =
encloses the
magnetic field at t = 0 and
then pulled at a uniform
speed v = 1 m/s in the
plane of the paper. Find the
induced EMF in volts in the
loop at t = 1 s
%3D

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