A uniform magnetic field passes through a horizontal circular wire loop at an angle 17.3∘17.3∘ from the vertical. The magnitude of the magnetic field ?B changes in time according to the equation ?(?)=(3.75 T)+(2.93 Ts)?+(−7.05 Ts2)?2B(t)=(3.75 T)+(2.93 Ts)t+(−7.05 Ts2)t2 If the radius of the wire loop is 0.270 m,0.270 m, find the magnitude E of the induced emf in the loop when ?=5.63 s. A uniform magnetic field passes through a horizontalcircular wire loop at an angle 17.3° from the vertical. Themagnitude of the magnetic field B changes in time accordingto the equationB (t) = (3.75 T) + ( 2.93t +T7.05SIf the radius of the wire loop is 0.270 m, find the magnitudeE of the induced emf in the loop when t = 5.63 s.30.6E =Incorrect

Answered: Image /qna-images/answer/83192e33-91ef-462f-9e58-5a484b14f734.jpg

A uniform magnetic field passes through a horizontal circular wire loop at an angle 17.3° from the vertical. The magnitude of the magnetic field B changes in time according to the equation B() = (3,75 T) + (293 )+(-7,05) (29 :) + (-708 –) - t + If the radius of the wire loop is 0.270 m, find the magnitude E of the induced emf in the loop when t = 5.63 s.

A uniform magnetic field passes through a horizontal circular wire loop at an angle 17.3° from the vertical. The magnitude of the magnetic field B changes in time according to the equation B() = (3,75 T) + (293 )+(-7,05) (29 :) + (-708 –) - t + If the radius of the wire loop is 0.270 m, find the magnitude E of the induced emf in the loop when t = 5.63 s.

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Question

A uniform magnetic field passes through a horizontal circular wire loop at an angle 17.3∘17.3∘ from the vertical. The magnitude of the magnetic field ?B changes in time according to the equation

?(?)=(3.75 T)+(2.93 Ts)?+(−7.05 Ts2)?2B(t)=(3.75 T)+(2.93 Ts)t+(−7.05 Ts2)t2

If the radius of the wire loop is 0.270 m,0.270 m, find the magnitude E of the induced emf in the loop when ?=5.63 s.