Consider the magnetic circuit given in below figure with parameters: u=153 Ho,d1=9 cm, d2=6.2 cm, d3=7.9 cm, d4=0.3 cm andN=497. Assume that all branches have the same cross-sectional area of 5 cm. Magnetic flux density is 0.1 Wb/m2 in the air gap. Basedon the given configuration calculate the current I in [A] in the coil.d2d3NTolerance + 0.1 relative

Answered: Image /qna-images/answer/f4e4da7e-a7fc-4b41-a356-8452a0baf9b2.jpg

Answered: Consider the magnetic circuit given in…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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A 500-turn coil is wound on an iron core. When a 120-V-rms 60-Hz voltage is applied to the coil, the current is 1 A rms. Neglect the resistance of the coil. Determine the reluctance of the core. Given that the cross-sectional area of the core is 5 cm2 and the length is 20 cm, determine the relative permeability of the core material.
A flux of 0.0016 Wb flows in a silicon sheet steel coil/core. The arrangement appears as shown below with the following dimensions: Ac = 0.0025 m? Core/gap area: Flux path length: le = 0.350 m lg = 0.0015 m N = 500 Air gap length: Number of turns: %3D A. What is the current, I, through the winding? B. What is the energy stored in the inductance? C. Assume that the current is given by i =9.75 sin (3147) A. What is the RMS voltage that would appear across the winding? D. Assume that the gap is removed from the arrangement with the flux path remaining at 0.350 m. For a flux of 0.0016 Wb, what is the inductance of the arrangement? E. What is the energy stored in the inductance with the gap removed?
An air-cored choke is designed to have an inductance of 20H when operating at a flux density of I Wb/m²: the corresponding relative permeability of iron core is 4000. Determine the number of turns in the winding: given that the flux path has a mean length of 22 cm in the iron core and I mm in air gap and that its cross-section is 10 cm².
In short explain the dependency of the energy storage in the inductor on the dimension and the flux density. OR In short state the relation between the inductor energy and the dimension of condcutor and their flux density. Both are same question.
Solve all parts.

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