Answer:
The resistance of the wire is 1.47 ohms
Explanation:
Electromagnetic induction is a physical phenomenon that consists on generate electric current changing magnetic flux. The magnitude of the electromotive force (emf) generated by the change on magnetic flux is given by Faraday-Lenz law:
[tex]\xi=N\mid \frac{d\varphi_{B}}{dt} \mid[/tex]
with N the turns of the coil, and phi_{B} the magnetic flux.
So, in our case because the magnetic flux changes from 12.0 Wb to 4.5 Wb on 0.034 seconds.
[tex]\xi=25\mid \frac{4.5 - 12.0}{0.034} \mid =220.59 V [/tex]
The electromotive force acts as voltage source for the coil, so we can use Ohm's law:
[tex]V=IR [/tex]
with I the current, R the resistance and V the voltage (the emf), solving for R
[tex]R=\frac{\xi}{I}= \frac{220.59}{150}[/tex]
[tex] R=1.47 \Omega [/tex]
