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
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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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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F522366a5-cd87-494e-b1a8-afdfa22b004d%2Fd06dabcd-b31b-402e-b1fb-28547038f7fa%2Ffrvac16_processed.png&w=3840&q=75)
Transcribed Image Text:2
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
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