A coil has N turns enclosing an area of A. In a physics laboratory experiment, the coil is rotated during the time interval Δt from a position in which the plane of each turn is perpendicular to Earth's magnetic field to one in which the plane of each turn is parallel to the field. The magnitude of Earth's magnetic field at the lab location is B.a: What is the magnitude Φinitial of the magnetic flux through one turn of the coil before it is rotated?b: What is the magnitude Φfinal of the magnetic flux through one turn of the coil after it is rotated?c: What is the magnitude of the average emf induced in the entire coil?

Brandon White

Brandon White

Answered question

2022-11-24

A coil has N turns enclosing an area of A. In a physics laboratory experiment, the coil is rotated during the time interval Δt from a position in which the plane of each turn is perpendicular to Earth's magnetic field to one in which the plane of each turn is parallel to the field. The magnitude of Earth's magnetic field at the lab location is B.a: What is the magnitude Φinitial of the magnetic flux through one turn of the coil before it is rotated?b: What is the magnitude Φfinal of the magnetic flux through one turn of the coil after it is rotated?c: What is the magnitude of the average emf induced in the entire coil?

Answer & Explanation

Kenyon Valencia

Kenyon Valencia

Beginner2022-11-25Added 11 answers

Explanation:
B = Magnetic field
A = Area
θ = Anglebr>t = Time taken
Before rotation the magnetic flux is given by
ϕ i = B A sin θ ϕ i = B A sin 90 ϕ i = B A
Magnetic flux is BA
After rotation the magnetic flux is given by
ϕ i = B A sin θ ϕ i = B A sin 0 ϕ i = 0
The magnetic flux is 0
Magnitude of emf is given by
ϵ = N A d ϕ d t ϵ = N B A t
The magnitude of the average emf induced in the entire coil is N B A t

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