Explanation Given data: The number of turns is 950 turns. The radius of coil is 0.060 m . The initial time is t = 0 s . The final time is t = 0.010 s . The angle is ( ϕ ) 45 ° . The magnitude of average emf is 0.065 V . Formula used: Write the expression for magnetic flux ( Φ ) . Φ = B A cos ϕ (1) Here, B is magnitude of magnetic field, A is area of the surface, and ϕ is angle between field and normal to the surface. Write the expression for magnitude of average induced emf ( | ξ | ) . | induced emf | = | − N ( Φ − Φ 0 Δ t ) | (2) Here, N is number of coil loops, Φ 0 is initial magnetic flux, and Δ t is duration of time. Explanation: The field coil made one-eighth of a revolution and hence the normal and surface must be perpendicular. Hence the final angle of normal to surface is 90 ° . Find the value of duration of time Δ t . Δ t = 0.010 s − 0 s = 0.010 s Find the area of coil. A = π ( 0.060 m ) 2 = π ( 0.0036 m 2 ) = 0.0113 m 2 Modify equation (1) for initial value. Φ 0 = B A cos ϕ 0 Substitute B A cos ϕ 0 for Φ 0 and B A cos ϕ for Φ in equation (2), | induced emf | = | − N ( B A cos ϕ − B A cos ϕ 0 Δ t ) | = | − N B A ( cos ϕ − cos ϕ 0 Δ t ) | Re-arrange the equation. B = | induced emf | | − N A ( cos ϕ − cos ϕ 0 Δ t ) | Substitute 0

Cutnell & Johnson Physics - Eleventh Edition

11th Edition

ISBN: 9781119391869

Author: Shane Stadler David Young

Publisher: WILEY

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Chapter 22, Problem 21P

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Chapter 22, Problem 20P

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