Suppose a 0.3 m long solenoid with cross-sectional area of 12 cm 2, N ₁ = 1400 turns and N 2 = 20 turns, produces a mutual inductance 'M'. Now if there are two inductors namely 0.1 H and 350 mH are connected in parallel. Effectively having opposing magnetic fields which results to a mutual inductance. Use the value of 'M' to calculate the overall inductance of the parallel combination. *No backtracking. *Please be careful when answering, only your submission in BB will be considered as your final answer. *Focus on getting the correct answer, a separate time will be alloted for the uploading of the solutions. O 0.0777 H O 0.0389 H O 0.1555 H O 0.0987 H

Suppose a 0.3 m long solenoid with cross-sectional area of 12 cm 2, N ₁ = 1400 turns and N 2 = 20 turns, produces a mutual inductance 'M'. Now if there are two inductors namely 0.1 H and 350 mH are connected in parallel. Effectively having opposing magnetic fields which results to a mutual inductance. Use the value of 'M' to calculate the overall inductance of the parallel combination. No backtracking. Please be careful when answering, only your submission in BB will be considered as your final answer. *Focus on getting the correct answer, a separate time will be alloted for the uploading of the solutions. O 0.0777 H O 0.0389 H O 0.1555 H O 0.0987 H

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter14: Inductance

Section: Chapter Questions

Problem 77AP: A solenoid with 4 x 107turns/m has an iron core placed in it whose magnetic susceptibility is 4.0 x...

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