(ii) A current carrying wire along the y-axis, shown in Figure 1.1, produces thecos(100nt)magnetic field H=-X-u, A/m in the xy-plane. The wire is at adistance of 10 mm from a resistor circuit of 2 mm x 2 mm as shown in Figure 1.1.Calculate the approximate interference current in the circuit.Xcos (lost t) and ūžM₂H²=Wire2 mm1kQ10 mm1 kn1 knFigure 1.12 mm

Answered: Image /qna-images/answer/d9543f7e-9f8b-46dd-bb44-0a6b388a806e.jpg

Answered: (ii) A current carrying wire along the…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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b) Explain why the electric field distribution is important for dielectric materials.
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The magnetic structure of Figure Q7 1 has a rerromagnetic core that can be treated as infinitely permeable Air-gap fringing Is negligible Let N= 10 turns, A=02 m and gap length is 0 = 5 x 10 m. The coil is excited by a sinusoidal voltage source that establishes a flux given by p(t) = 0.25stn20t Wb. The resistance of the coil can be neglected Determine the supply voltage, ), the current, (t) and the inductance of the coil, L. %3D Area, A ŁAir Vst) Figure Q7.1. Solutions insert your solutions in the spaces provided below. Give your numerical values to the nearest whole number unless where stated otherwise. Veft) = Volts t) = A. L= H (give your answer correct to 3 decimal places).
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PLEASE ANSWER IT ASAP FOR AN UPVOTE. THANK YOU. Round off your answer into four decimal places .Box your final answer .Use SI unit. A magnetic circuit consist of silicon having a cross section of 1.5 sq. m and 0.1 m length and an air gap of the same cross section and pf 0.02 m length. what is the field intensity at the air gap if 0.5 A current flows through the 5000-turns coil? Assume the permeability of silicon steel is 3000.

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