Respuesta :
Answer: 62 μT
Explanation:
Given
Length of rod, l = 1.33 m
Velocity of rod, v = 3.19 m/s
Induced emf, e = 0.263*10^-3 V
Using Faraday's law, the induced emf of a rod can be gotten by the formula
e = blv where,
e = induced emf of the rod
b = magnetic field of the rod
l = length of the rod
v = velocity of the rod. On substituting, we have
0.263*10^-3 = b * 1.33 * 3.19
0.263*10^-3 = b * 4.2427
b = 0.263*10^-3 / 4.2427
b = 0.0000620 T
b = 62 μT
Thus, the strength of the magnetic field is 62 μT
Answer:
The strength of the magnetic field is 0.062 mT
Explanation:
Given:
ε = 0.263 mV
L = 1.33 m
v = 3.19
The induced emf in the rod is equal to:
[tex]\epsilon =BLvsin90\\B=\frac{\epsilon }{Lv} =\frac{0.263}{1.33*3.19} =0.062mT[/tex]
