- #1
golriz
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A conducting loop has an area of A=0.065 m^2 and is positioned such that a uniform magnetic field points at θ = 60 degrees relative to the plane of the loop. When the magnitude of the magnetic field decreases to B(f) = 0.30 T in ∆t = 0.087s , the average induced emf in the loop is average ε= 1.2V. Calculate the initial magnitude B(i) of the magnetic field.
ε = -∆Ф/∆t = -( ABcosθf - ABcosθi )/∆t
1.2 = - 0.065( B(f) - B(i) )/0.087 = - 0.065( 0.30 - B(i) )/ 0.087
B(i) = 1.9 T
I think since in the question is said a uniform magnetic field so "B" should be constant and θ should change.
ε = -∆Ф/∆t = -( ABcosθf - ABcosθi )/∆t
1.2 = - 0.065( B(f) - B(i) )/0.087 = - 0.065( 0.30 - B(i) )/ 0.087
B(i) = 1.9 T
I think since in the question is said a uniform magnetic field so "B" should be constant and θ should change.