Solutions to the problems in Fundamentals of Electromagnetics with MATLAB, 2nd ed., by Lonngren, Savov, and Jost (ISBN 1-891121-58-8). I have organized the solutions by chapter and section. All solutions have a MATLAB file, a LaTeX file, or both. I have included the text of the problem with each solution file. Note that I completed the MATLAB problems with GNU Octave, so I'm not certain that they will work flawlessly with MATLAB.

• 1 — MATLAB, Vectors, and Phasors
  • 1.1 — Understanding Vectors Using MATLAB
  • 1.2 — Coordinate Systems
  • 1.3 — Integral Relations for Vectors
  • 1.4 — Differential Relations for Vectors
  • 1.5 — Phasors
• 2 — Electrostatic Fields
  • 2.1 — Coulomb's Law
  • 2.2 — Electric Field
  • 2.3 — Superposition Principles
  • 2.4 — Gauss's Law
  • 2.5 — Potential Energy and Electric Potential
  • 2.6 — Numerical Integration
  • 2.7 — Dielectric Materials
  • 2.8 — Capacitance
• 3 — Magnetostatic Fields
  • 3.1 — Electrical Currents
  • 3.2 — Fundamentals of Magnetic Fields
  • 3.3 — Magnetic Vector Potential and the Biot-Savart Law
  • 3.4 — Magnetic Forces
  • 3.5 — Magnetic Materials
  • 3.6 — Magnetic Circuits
  • 3.7 — Inductance
• 4 — Boundary Value Problems Using MATLAB
  • 4.1 — Boundary Conditions for Electric and Magnetic Fields
  • 4.2 — Poisson's and Laplace's Equations
  • 4.3 — Analytical Solution in One Dimension—Direct Integration Method
  • 4.4 — Numerical Solution of a One-Dimensional Equation—Finite Difference Method
  • 4.5 — Analytical Solution of a Two-Dimensional Equation—Separation of variables
  • 4.6 — Finite Difference Method Using MATLAB
  • 4.7 — Finite Element Method Using MATLAB
  • 4.8 — Method of Moments Using MATLAB
• 5 — Time-Varying Electromagnetic Fields
  • 5.1 — Faraday's Law of Induction
  • 5.2 — Equation of Continuity
  • 5.3 — Displacement Current
  • 5.4 — Maxwell's Equations
  • 5.5 — Poynting's Theorem
  • 5.6 — Time-Harmonic Electromagnetic Fields
• 6 — Electromagnetic Wave Propagation
  • 6.1 — Wave Equation
  • 6.2 — One-Dimensional Wave Equation
  • 6.3 — Time-Harmonic Plane Waves
  • 6.4 — Plane Wave Propagation in a Dielectric Medium
  • 6.5 — Reflection and Transmission of an Electromagnetic Wave
• 7 — Transmission Lines
  • 7.1 — Equivalent Electrical Circuits
  • 7.2 — Transmission Line Equations
  • 7.3 — Sinusoidal Waves
  • 7.4 — Terminations
  • 7.5 — Impedance on the Transmission Line Matching
  • 7.6 — Smith Chart
  • 7.7 — Transient Effects and the Bounce Diagram
  • 7.8 — Pulse Propagation
  • 7.9 — Lossy Transmission Lines
  • 7.10 — Dispersion and Group Velocity
• 8 — Radiation of Electromagnetic Waves
  • 8.1 — Radiation Fundamentals
  • 8.2 — Infinitesimal Electric Dipole Antenna
  • 8.3 — Finite Electric Dipole Antenna
  • 8.4 — Loop Antennas
  • 8.5 — Antenna Parameters
  • 8.6 — Antenna Arrays