According to the integral form of Faraday's Law, the electromotive force (EMF) may be defined as EMF = E - dl = -÷ [ B -ñ da. P Find the EMF induced in a square loop with sides of length a lying in the yz-plane in a region where the magnetic field changes over time as B(t) = Bo e-5t/to . %3D
According to the integral form of Faraday's Law, the electromotive force (EMF) may be defined as EMF = E - dl = -÷ [ B -ñ da. P Find the EMF induced in a square loop with sides of length a lying in the yz-plane in a region where the magnetic field changes over time as B(t) = Bo e-5t/to . %3D
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Transcribed Image Text:According to the integral form of Faraday's Law, the electromotive force (EMF) may be defined as
EMF = E - dl = -÷ [ B -ñ da.
P
Find the EMF induced in a square loop with sides of length a lying in the yz-plane in a region where
the magnetic field changes over time as B(t) = Bo e-5t/to .
%3D
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