Answer:
E = 0.262V
Explanation:
Given Area = 0.262m×0.401 m =0.105m², B = 0.764T, Δt = 0.153s
In this time interval the area is halved. This causes the flux to change with time and as a result induce an emf in the loop.
So
ΔФ = BΔA
ΔA = 1/2×0.105m² = –0.0525m²
ΔФ = –0.764×0.0525 = –0.04011Wb
ΔФ/Δt = –0.04011/ 0.153 = –0.262Wb/s
E = –(ΔФ/Δt) = –(–0.262) = 0.262V
E = 0.262V
The magnitude of the average emf induced in the rectangular loop is 0.262Wb/s which is explained below.
Given information:
length of the rectangle, L = 0.401 m
breadth of the rectangle, B = 0.262m
So Area:
A = 0.262m × 0.401 m
A = 0.105m²
magnetic field B = 0.764T,
time Δt = 0.153s
The area of the loop is halved after the given time, so now there is a change in the magnetic flux passing through the rectangle.
Change in flux:
dФ = BdA
or
ΔФ = BΔA
Now,
ΔA = 0.105m² - 1/2×0.105m² = 0.0525m²
So,
ΔФ = 0.764×0.0525
ΔФ = 0.04011Wb
The induced EMF is given by:
E = –(ΔФ/Δt)
E = –0.04011/ 0.153
E = –0.262Wb/s
The magnitude of EMF produced in the loop is 0.262Wb/s
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