Answer:
0.00124 V
Step-by-step explanation:
Parameters given:
Width of loop, W = 2 cm = 0.02 m
Length of loop, L = 6.2 cm = 0.062 m
Initial magnetic field, Bini = 0.7 T
Final magnetic field, Bfin = 2.9 T
Time interval, dt = 2.2 secs
The magnitude of the average induced EMF due to a changing magnetic field in a time interval, dt, is given as:
EMF = | -(N * A * dB) / dt |
Where N = number of loops = 1
A = area of loop = L * W = 0.02 * 0.062 = 0.00124 m²
dB = change in magnetic field = Bfin - Bini = 2.9 - 0.7 = 2.2 T
=> EMF = | -(1 * 0.00124 * 2.2) / 2.2 |
EMF = | -0.00124 |
EMF = 0.00124 V
The average induced EMF is 0.00124 V