13.1 Faraday’s law  (Page 2/6)

A square coil in a changing magnetic field

The square coil of [link] has sides $l=0.25\text{m}$ long and is tightly wound with $N=200$ turns of wire. The resistance of the coil is $R=5.0\text{Ω}.$ The coil is placed in a spatially uniform magnetic field that is directed perpendicular to the face of the coil and whose magnitude is decreasing at a rate $dB\text{/}dt=\mathrm{-0.040}\text{T}\text{/}\text{s}.$ (a) What is the magnitude of the emf induced in the coil? (b) What is the magnitude of the current circulating through the coil?

Strategy

The area vector, or $\widehat{n}$ direction, is perpendicular to area covering the loop. We will choose this to be pointing downward so that $\overrightarrow{B}$ is parallel to $\widehat{n}$ and that the flux turns into multiplication of magnetic field times area. The area of the loop is not changing in time, so it can be factored out of the time derivative, leaving the magnetic field as the only quantity varying in time. Lastly, we can apply Ohm’s law once we know the induced emf to find the current in the loop.

Solution

1. The flux through one turn is
   
   ${\text{Φ}}_{\text{m}}=BA=B{l}^2,$
   
   so we can calculate the magnitude of the emf from Faraday’s law. The sign of the emf will be discussed in the next section, on Lenz’s law:
   
   $\begin{array}{cc}\left|\epsilon \right|\hfill & =\left|\text{−}N\frac{d{\text{Φ}}_{\text{m}}}{dt}\right|=N{l}^2\frac{dB}{dt}\hfill \\ & =(200){(0.25\text{m})}^2(0.040\text{T/s})=0.50\text{V}\text{.}\hfill \end{array}$
2. The magnitude of the current induced in the coil is
   
   $I=\frac{\epsilon }{R}=\frac{0.50\text{V}}{5.0\text{Ω}}=0.10\text{A}\text{.}$

Significance

If the area of the loop were changing in time, we would not be able to pull it out of the time derivative. Since the loop is a closed path, the result of this current would be a small amount of heating of the wires until the magnetic field stops changing. This may increase the area of the loop slightly as the wires are heated.

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