| SES # | TOPICS | NOTES | |
|---|---|---|---|
| Foundations | |||
| L1 | Foundations, forces and fields, Gauss's and Ampere's laws (∫) for static fields | (PDF) | |
| L2 | Media, boundary conditions | (PDF) | |
| L3 | Review vector operators; Maxwell's differential equations (t), E, H, uniform plane wave; sin (ωt) | (PDF) | |
| L4 | Poynting theorem derivation (time), UPW example (we, wm, S(t)) | (PDF) | |
| Forces, motors, generators, and MEMS | |||
| L5 | Electric forces on e-beams, C plates, force from ∂w/∂z; generators and sensors | (PDF) | |
| L6 | Magnetic pressure, rotary wire and reluctance motors, forces on materials | (PDF) | |
| L7 | Static Φ and fields, Laplace's equation, separation of variables (x,y,z); inhomogeneous materials | (PDF) | |
| Waves in media and at boundaries | |||
| L8 | Electromagnetic fields in media, uniaxial media, quarter-wave plate | (PDF) | |
| L9 | Boundary conditions, k•r, phase matching, non-uniform plane wave, Snell's law | (PDF) | |
| L10 | TE at planar boundary, TM by duality, Brewster's angle | (PDF) | |
| Limits to computation speed | |||
| L11 | Device and line delays; TEM parallel-plate line, telegraphers' equation, Zo | (PDF) | |
| L12 | Transients: Thevenin equivalents; L, C, diode loads; initial conditions; lossy TEM | (PDF) | |
| RF/microwave guidance and filtering | |||
| L13 | Architecture, generalized TEM line, Ζ(z), Γ(z), Ζ transformations | (PDF) | |
| L14 | RLC resonators, series, parallel, ωo, ∆ω, α, QL, QI, QE, coupling | (PDF) | |
| L15 | TEM resonators, we(t), wm(t), Q, ∆ω, examples; |V(z,f)| | (PDF) | |
| L16 | TEmn rectangular waveguide, cavity resonators, perturbations | (PDF) | |
| Wireless communications | |||
| L17 | Conservation of energy, power, G(θ,φ), Ae= Gλ2 /4π, Rr, VTh, RF links | (PDF) | |
| L18 | Radiation by current elements, Hertzian dipole, near and far fields; Biot-Savart | (PDF - 1.6MB) | |
| L19 | Receiving antennas: VTh in dipoles and loops; d<<λ/2π, G = 4πA/λ2 | (PDF) | |
| L20 | Aperture antennas, diffraction | (PDF) | |
| Optical communications | |||
| L21 | Optical fibers, applications, dielectric slab waveguide, fiber design | (PDF) | |
| L22 | Lasers | (PDF) | |
| Acoustics | |||
| L23 | Acoustic waves, boundary conditions, reflections, antennas | (PDF) | |
| L24 | Course philosophy, resonator perturbations and speech generation | (PDF) | |
Figure 0.3: Radio spectrum and commonly used band names. Each band spans one decade of frequencies — e.g., VHF extends from 30 to 300 MHz — and one decade of free space wavelength λ = c f. Wave equation Maxwell's Equations contain the wave equation for electromagnetic waves. One approach to obtaining the wave equation: 1. Take the curl of Faraday's law: 2. Substitute Ampere's law for a charge and current-free region: This is the three-dimensional wave equation in vector form. It looks more familiar when reduced a plane. Electromagnetic Waves David H. Presents mathematical and physical problem-solving techniques in a way that can be extended to other subjects besides electromagnetic waves. Interesting practical problems are provided throughout, and are the basis for end-of-chapter problems. Or download our brochure (PDF). That light is an electromagnetic wave. Maxwell’s work thus unified the domain of electricity, magnetism and light. Hertz, in 1885, experimentally demonstrated the existence of electromagnetic waves. Its technological use by Marconi and others led in due course to the revolution in communication that we are witnessing today.
Electromagnetic Waves Staelin Pdf Free
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