91影视

1. Fig.30-33.
2. The diameter of the circular loop is, d = 10cm
3. The angle$胃=30掳$
4. The uniform magnetic field is$\stackrel{鈫�}{B}=0.50\mathrm{T}$
5. The normal$\stackrel{鈫�}{N}$rotates in the cone about the field direction at the rate 100 rev/min.
6. Angle remains unchanged during the process.

Using the equation for the magnetic flux and the given information and applying Faraday鈥檚 law, find the emf induced in the loop.

Faraday's law of electromagnetic induction states, Whenever a conductor is placed in a varying magnetic field, an electromotive force is induced in it.

Formulae are as follow:

The magnetic flux through the loop is,

Where,${桅}_B$is magnetic flux, B is magnetic field, A is area.

The magnetic flux through the loop is,

${桅}_B=BA\cos 胃$

Since, the angle remains unchanged during the rotation, the magnetic field is uniform and the area is also constant.

Hence, the magnetic flux${桅}_B$through the loop is also unchanged during the rotation. That is,

${桅}_B=cons\tan t$

According to Faraday鈥檚 law, the emf is induced only if there is any change in the magnetic flux.

Therefore, the emf induced in the loop is zero. That is,

$$\begin{gathered} 蔚=-\frac{d{桅}_B}{dt}...............................................(30-4) \\ \mathrm{But}{桅}_B=cons\tan t \\ 蔚=0 \end{gathered}$$

Hence,the magnetic flux through the loop is zero, $蔚=0$.

Therefore, by using Faraday鈥檚 law and equation, the magnetic flux through the loop can be determined.