b) Figure 2 depicts an inductive structure in a printed circuit carrying a current /200mA. The dimension L = 6mm, and the separation between incoming andoutgoing conductors is negligible. All conductor segments are considered thin.LFigure 2Assuming the relative permeability of the substrate μ = 1, calculate themagnitude and direction of the magnetic flux density at position A.

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Answered: b) Figure 2 depicts an inductive…

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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A conductor is moving with a velocity of 12 m/s in the direction shown. The flux density is 1.6 T, and the length of the wire is 1.2 m making an angle with vertical axis. What is the magnitude and the polarity of the induced voltage at the terminals of the wire? Select one: a. eind 17.65 Volts, Positive terminal down b. None C. 40. d. eind eind e. B eind 14.81 Volts, Positive terminal down 17.65 Volts, Positive terminal up 14.81 Volts, Positive terminal down
Draw the magnetization curve of magnetic materials for varying dc supply (0 to Vm), Ac supply, show the magnetic dipoles for each part of the curve.
topic: Resistance and ohms law
1. Determine the induced voltage in a conductor 60 cm long moving in the magnetic field at a velocity of 8000 ft per minute. If the flux density is 0.18 Wb/meter-square and the angle between the flux and the conductor is 60 degrees.
The following is known: (a) length of a conductor in a magnetic field, 50 cm; (b) velocity of the conductor in the magnetic field, 10,000 ft per min: (c) flux density, 0.2325 Wb/m2: (d) angle of travel between flux and conductor. 30 degrees. Determine the induced voltage in the conductor. 2.12
w2
5. A cast-iron core of the shape indicated below has the following pertinent dimensions: ab = 10 cm and bc = 15 cm. Find the mmf required if the magnetic field intensity in the thinner side is H1= 100 A-turns/m and the thicker side is H2 = 46 A-turns/m. b 2011
A magnetic core in the form of a closed circular ring has a mean length of 30 cm and a cross sectional area of 1 sq cm. Determine the reluctance if the relative permeability of iron is 2400
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A magnetic core with an air gap is shown below. For a relative permeability is 3500, and the space free permeability is 4TTX10-7 H/m. Find the reluctance of the left leg and the top side of the core. Ignore the gap in your calculations. 10 cm 0.1 cm gap 20 cm 5 cm 5 cm 40 cm 5 cm core depth = 10 cm Select one: O a. Rieft = 1251 A.t./Wb , Rtop = 1023 A.t/Wb O b. None O c. Rieft = 12.51 KA.t./Wb , Reop = 10.23 KA.t/Wb O d. Rieft = 125.1 A.t./Wb , Rtop = 102.3 A.t/Wb
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