A wire loop with radius R= 0.2m and 400 turns of wire rotates perpendicular to a uniform magnetic field with B = 10 T at a uniform rate of 60 cycles per second. A) Calculate the induced EMF as a function of time. B) Calculate the average value of the EMF over ½ of a rotation of the wire loop.

A wire loop with radius R= 0.2m and 400 turns of wire rotates perpendicular to a uniform magnetic field with B = 10 T at a uniform rate of 60 cycles per second. A) Calculate the induced EMF as a function of time. B) Calculate the average value of the EMF over ½ of a rotation of the wire loop.

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Question

Please answer both parts

A wire loop with radius R= 0.2m and 400 turns of wire rotates perpendicular to a uniform magnetic
field with B = 10 T at a uniform rate of 60 cycles per second. A) Calculate the induced EMF as a
function of time. B) Calculate the average value of the EMF over ½ of a rotation of the wire loop.
B
the previous problem, if the wire loop is electrically in series with a load resistance of R = 102, A)
calculate the induced current as a function of time. B) What is the maximum instantaneous current in
the wire?

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Step 1: Given data.

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Step 2: Applying the law of electromagnetic induction to find the induced emg

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Step 3: Calculation of current

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