Guia docente 2013_14 Escuela de Ingeniería de Telecomunicación

Contents

Topic	Sub-topic
1. Vector and differential analysis of fields	1.1 Scalar and vector fields 1.2 Systems of coordinates in space 1.3 Vector Algebra 1.4 Integral Operators 1.5 Differential operators 1.6 Properties of operators
2. Electrostatic fields	2.1 Sources of the electrostatic field 2.2 Equations of the electrostatic field, electric potential 2.3 Electrostatic fields produced by charge distributions 2.4 Electrostatic field in material media 2.5 Electric Conductors: Capacity and Energy 2.6 Equations of Poisson and Laplace
3. Magnetostatic fields	3.1 Sources of magnetostatic field 3.2 Magnetostatic field equations 3.3 Magnetostatic field produced by current distributions 3.4 Magnetostatic field in material media 3.5 Systems of inductors, inductance and energy
4. Maxwell Model	4.1 Maxwell's equations in integral form 4.2 Differential form of Maxwell's equations 4.3 Boundary conditions. 4.4 Energy balance of the electromagnetic field 4.5 Harmonic time variation 4.6 Harmonic time variation in material media 4.7 Skin effect
5. Wave equation and its solutions	5.1 Introduction. 5.2 Wave equation for time harmonic fields 5.3 Propagation, attenuation and phase constants 5.4 Solutions in rectangular, cylindrical and spherical coordinates 5.5 Progressive, stationary and evanescent waves in lossy and losseless media
6. Plane waves in free space	6.1 Expressions of the fields 6.2 Wave Impedance 6.3 Poynting Vector 6.4 Instant fields 6.5 Polarization 6.6 Geometricla optics