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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![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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F82b5c32c-2578-4910-aa75-c8367044e495%2F78eb2770-28f3-4e76-9b53-6c38d35ba76e%2Ft6um1pi_processed.jpeg&w=3840&q=75)
Transcribed Image Text: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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