For the magnetic circuit shown, the air gap cross-sectional area is 0.004 m², the air gap length /=0.002 m, winding #1 has N₁=600 turns, winding #2 has N₂-200 turns, the core permeability is infinite, and leakage and fringing of the gap are neglected. a) Find the reluctance R of the magnetic circuit b) Find the current required to produce a net flux ܕܬ NI N2 tuy -0.004 Wb in the airgap net c) Find the self-inductances L₁ and L22 of windings #1 and #2 d) Find the mutual inductances L₁2 and L₂1 between windings #1 and #2.
For the magnetic circuit shown, the air gap cross-sectional area is 0.004 m², the air gap length /=0.002 m, winding #1 has N₁=600 turns, winding #2 has N₂-200 turns, the core permeability is infinite, and leakage and fringing of the gap are neglected. a) Find the reluctance R of the magnetic circuit b) Find the current required to produce a net flux ܕܬ NI N2 tuy -0.004 Wb in the airgap net c) Find the self-inductances L₁ and L22 of windings #1 and #2 d) Find the mutual inductances L₁2 and L₂1 between windings #1 and #2.
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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Transcribed Image Text:For the magnetic circuit shown, the air gap cross-sectional area is 0.004 m², the air gap length
/=0.002 m, winding #1 has N₁=600 turns, winding #2 has N₂-200 turns, the core permeability is
infinite, and leakage and fringing of the gap are neglected.
a) Find the reluctance R of the magnetic circuit
b) Find the current required to produce a net flux
ܕܬ
NI
N2
tuy
-0.004 Wb in the airgap
net
c) Find the self-inductances L₁ and L22 of windings #1 and #2
d) Find the mutual inductances L₁2 and L₂1 between windings #1 and #2.
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