Engineering Electromagnetics9th EditionHayt Publisher: MCGISBN: 9781260029963
Engineering Electromagnetics
Solutions for Engineering Electromagnetics
Problem 5.2P:
Given J=-10-4 (yaxx+ya) A/m2, find the current crossing the y=0 plane in the -ay directed between...Problem 5.3P:
A solid sphere of radius b contains charge Q. uniformly distributed throughout the sphere volume The...Problem 5.5P:
Consider the following time-varying current density, which is in the form of a propagating wave at...Problem 5.10P:
A large brass washer has a 2-cm inside diameter, a 5-cm outside diameter, and is 0.5 cm thick. Its...Problem 5.14P:
A rectangular conducting plate lies in the xy plane, occupying the region 0 < x a, 0 y b. An...Problem 5.17P:
Consider the serup as in Problem 5.15, except find R by considering the medium as made up of a stack...Problem 5.19P:
Consider the as in Problem 5.8, except find R by considering the medium as made up of concentric...Problem 5.20P:
Consider the basic image problem of a point charge q at z=d, suspended over an infinite conducting...Problem 5.21P:
Let the surface y=0 be a perfect conductor in free space. Two uniform line charge 30 nC/m each are...Problem 5.22P:
The line segment x=0, -1≤y≤1, z=1, carries a linear charge pL=xyC/m, Let z=0 be a conducting...Problem 5.23P:
A dipole with P=0.1azμC. m is located at A(1,0,0) in free, and the the x=0 plane is perfectly...Problem 5.24P:
At a certain temperature, the electron and hole motilities in intrinsic germanium are given as 0.43...Problem 5.25P:
Electron and hole concentration increase with temperature. For pure silicon, suitable expression are...Problem 5.26P:
A semiconductor sample has a rectangular cross section 1.5 by 2.0 mm, length of 11.0. The material...Problem 5.27P:
Atomic hydrogen contains 5.5Ă—1023 atoms/m at a certain temperature and pressure. When an electric...Problem 5.28P:
Find the dielectric constant of a material an which the electric flux density is four tunes the...Problem 5.29P:
A coaxial conductor has radii a=0.8mm and b=3 mm and a polystyrene dielectric for which...Problem 5.30P:
Consider a composite material made up of two species: having number densities N1 and N2 molecule...Problem 5.32P:
Two equal but p\opposite-sign point charges of 3μC are held x meters apart by a spring that...Problem 5.33P:
Two perfect dielectrics have relative permittivities, r1=2 and r2=8. The p1lanar surface between...Browse All Chapters of This Textbook
Chapter 1 - Vector AnalysisChapter 2 - Coulomb’s Law And Electric Field IntensityChapter 3 - Electric Flux Density, Gauss’s Law, And DivergenceChapter 4 - Energy And PotentialChapter 5 - Conductors And DielectricsChapter 6 - CapacitanceChapter 7 - The Steady Magnetic FieldChapter 8 - Magnetic Forces, Materials, And InductanceChapter 9 - Time-varying Fields And Maxwell’s EquationsChapter 10 - Transmission Lines
Book Details
First published just over 50 years ago and now in its Eighth Edition Bill Hayt and John Buck’s Engineering Electromagnetics is a classic text that has been updated for electromagnetics education today. This widely-respected book stresses fundamental conce
Sample Solutions for this Textbook
We offer sample solutions for Engineering Electromagnetics homework problems. See examples below:
Chapter 1, Problem 1.1PGiven: The value of E is E=(Ar)sinθaθ. The value of H is H=(Br)sinθaϕ The expression for S is...Concept used: Write the expression for the x -component of the rectangular system in term of...Chapter 1, Problem 1.23PChapter 2, Problem 2.1PChapter 2, Problem 2.7PChapter 2, Problem 2.17PChapter 2, Problem 2.26PGiven: The central charge Q1 is located at the origin and a radius of the hemisphere is a while...
Chapter 3, Problem 3.15PChapter 3, Problem 3.20PChapter 3, Problem 3.30PChapter 4, Problem 4.1PGiven: V(ρ)=a2ρ0e−ρaε0 Concept used: E=−∇V Calculation: Formula for electric field is formula shown...Chapter 4, Problem 4.24PGiven Information: The current density is, J=−104[sin(2x)e−2yax+cos(2x)e−2yay] kA/m2. Calculation:...Chapter 5, Problem 5.20PChapter 5, Problem 5.22PCalculation: The ratio of outer radius b to inner radius a in terms of the ratio of plate separation...Chapter 6, Problem 6.31PCalculation: The Poisson's equation is defined for z<b boundary condition (where b is the radius...Calculation: The general solution of Laplace's equation is written as, V=C1ϕ+C2 ...... (1) Here, ϕ...Calculation: The Poisson's equation (generalization of Laplace equation) is defined for r<c...Chapter 7, Problem 7.1PGiven: The given configuration is I = 1A Range is −h<z<h. Calculation: The figure for the loop...Given: The radius of the hollow cylindrical shell is 'a' which is centered on the z -axis and it...Given: Total current carried by cylindrical shell is I=50A Shell is defined by 1 cm < ρ <1.4...Chapter 7, Problem 7.38PChapter 8, Problem 8.1PGiven Information: Square loop is given as,. . The torque is about the origin A(0,0,0) in the field...Chapter 8, Problem 8.27PGiven Information: The toroid is having square cross section, 2.5 cm<ρ<3.5 cm , −0.5...Given Information: The given circuit is shown below: B=0⋅2cos120πtT Calculation: flux(ϕ)=π(0⋅15)2β...Given: B=B0cos(ωt)cos(k0z) ay Wb/m2 Medium for magnetic flux density is free space. Concept used:...Given Information: Breadth, b = 4 cm Diameter, d = 8 mm Magnetic field, H=5cos(109t−βz)ay A/m...Chapter 10, Problem 10.1PChapter 10, Problem 10.5PChapter 10, Problem 10.14PChapter 10, Problem 10.15PChapter 10, Problem 10.20PChapter 11, Problem 11.1PChapter 11, Problem 11.6PChapter 11, Problem 11.11PChapter 11, Problem 11.12PGiven: A uniform plane wave in air Ex1+=Ex10+cos(1010t−βz) V/m incident normally on copper surface...Given: Ex1+=10cos( ωt−15z) V/m And β=15 The plane z=0 defines the boundary which is there in between...Given: Two regions with region 1 : z<0 and region 2 : z>0 are perfect dielectrics. Radian...Given: Refractive index of glass n=1.45 Glass thickness =λ2 Concept Used: Calculate reflection...Chapter 13, Problem 13.1PChapter 13, Problem 13.7PChapter 13, Problem 13.22PChapter 14, Problem 14.1PGiven: The following parameters are given: λ=2π m, d=0.1 m and (x=0, y=1000, z=0). Concept Used:...Given: The following information is given: r=100, θ=900,ϕ=300. The radiation field Eθs is given by,...
More Editions of This Book
Corresponding editions of this textbook are also available below:
Engineering Electromagnetics
6th Edition
ISBN: 9780071202299
Engineering Electromagnetics
6th Edition
ISBN: 9780072303216
Engineering Electromagnetics
6th Edition
ISBN: 9780071181624
Engineering Electromagnetics
5th Edition
ISBN: 9780070274075
Engineering Electromagnetics - 8th Edition
8th Edition
ISBN: 9780073380667
Engineering Electromagnetics
9th Edition
ISBN: 9780078028151
Loose Leaf For Engineering Electromagnetics
9th Edition
ISBN: 9781260472370
Engineering Electromagnetics with CD
7th Edition
ISBN: 9780073104638
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