Interactive Modules

Chapter 1: Introduction: Waves and Phasors

1.1 Sinusoidal Waveforms
1.2 Traveling Waves
1.3 Phase Lead/Lag

Chapter 2: Transmission Lines

2.1 Two-Wire Line
2.2 Coaxial Cable
2.3 Lossless Microstrip Line
2.4 Transmission Line Simulator
2.5 Wave and Input Impedance
2.6 Interactive Smith Chart
2.7 Quarter-Wavelength Transformer Tutorial
2.7 Quarter-Wavelength Transformer Design
2.8 Discrete Element Matching Tutorial
2.8 Discrete Element Matching Design
2.9 Single-Stub Tuning Tutorial
2.9 Single-Stub Tuning Design
2.10 Transient Response

Chapter 3: Vector Analysis

3.1 Vector Addition and Subtraction
3.2 Gradient
3.3 Divergence
3.4 Curl

Chapter 4: Electrostatics

4.1 Fields due to Charges
4.2 Charges in Adjacent Dielectrics
4.3 Charges above a Conducting Plane
4.4 Charges near a Conducting Sphere

Chapter 5: Magnetostatics

5.1 Electron Motion in Static Fields
5.2 Magnetic Fields due to Line Sources
5.3 Magnetic Field of a Current Loop
5.4 Magnetic Force between Two Parallel Conductors

Chapter 6: Maxwell's Equations for Time-Varying Fields

6.1 Circular Loop in Time-Varying Magnetic Field
6.2 Rotating Wire Loop in Constant Magnetic Field
6.3 Displacement Current

Chapter 7: Plane-Wave Propagation

7.1 Linking E to H
7.2 Plane Wave
7.3 Polarization I
7.4 Polarization II
7.5 Wave Attenuation
7.6 Current in a Conductor

Chapter 8: Wave Reflection and Transmission

8.1 Multimode Step-Index Optical Fiber
8.2 Oblique Incidence on Perfect Conductor
8.3 Oblique Incidence
8.4 Oblique Incidence in Lossy Medium
8.5 Rectangular Waveguide

Chapter 9: Radiation and Antennas

9.1 Hertzian Dipole
9.2 Linear Dipole Antenna
9.2 Linear Dipole Antenna in 3-D
9.3 Detailed Analysis of Linear Antenna
9.4 Large Parabolic Reflector
9.5 Two-Dipole Array
9.6 Detailed Analysis of Two-Dipole Array
9.7 N-Element Array
9.8 Uniform Dipole Array
9.9 Line of Sight Transmission