A 149-turn circular coil of radius 2.45 cm is immersed in a uniform magnetic field that is perpendicular to the plane of the coil. During 0.141 s the magnetic field strength increases from 50.9 mT to 98.1 mT. Find the magnitude of the average EMF, in millivolts, that is induced in the coil during this time interval.

Answer:94.05 mVStep-by-step explanation:N = Number of turns = 149r = Radius of coil = 2.45 cm = 0.0245 mt = Time = 0.141 sInitial magnetic field = 50.9 mTFinal magnetic field = 98.1 mTA = Area = πr² = π×0.0245² [tex]\text{Induced emf}=NA\frac{dB}{dt}\\\Rightarrow \text{Induced emf}=149\times \pi \times 0.0245^2\frac{(98.1-50.9)\times 10^{-3}}{0.141}\\\Rightarrow \text{Induced emf}=0.09405 V = 94.05 mV[/tex]∴ Magnitude of the average EMF, that is induced in the coil during this time interval is 94.05 mV