(a) Explanation The diameter of the second coil is 4 cm , the number of turns in the second coil is 5 . Write the expression to find the average emf. ε = N | Δ Φ B Δ t | Here, ε is the average emf, N is the number of turns, Φ B is the flux, t is the time. Substitute B A cos ϕ for Φ B to find the average emf. ε = N | ( B f − B i ) A cos ϕ Δ t | Here, A is the area, ϕ is the angle between B and A . Substitute μ 0 n I for B i and π r 2 for A to find average emf. ε = N | ( B f − μ 0 n I ) π r 2 cos ϕ Δ t | Conclusion: Substitute 0 for B f , 4 π × 10 − 7 V ⋅ s/A ⋅ m for μ 0 , 4000 m -1 for n , 0 (b) To determine The average emf induced in the second coil.

10th Edition

ISBN: 9780321902788

Author: Hugh D. Young, Philip W. Adams, Raymond Joseph Chastain

Publisher: PEARSON

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Electromagnets

The word "electromagnet" is composed of two words, ‘electro’ and ‘magnet’. It is a type of magnet in which an electric current helps in the generation of a magnetic field. Electromagnets usually consist of two major parts, wire and a coil around which th…

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Chapter 21, Problem 8P

(a)

To determine

The average emf induced in the second coil.

(b)

To determine

The average emf induced in the second coil.

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Chapter 21, Problem 7P

Chapter 21, Problem 9P

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Chapter 21 Solutions

College Physics (10th Edition)

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The average emf induced in the second coil.

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The average emf induced in the second coil.

The average emf induced in the second coil.

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Chapter 21 Solutions