Политехнический Институт Ренселлера. Troy, NY, 2015.
Курс лекций от профессора физики в Политехническом Институте Ренселлера. Lumped circuit elements
Transmission-lines. Telegraph and wave equation.
Standing-waves. Impedance matching
Vector fields. Dot and Cross product
Vector calculus. Nabla, gradient, divergence and rotation.
Coordinate systems
Maxwell equations
Electrostatic-potential
Point charges
Line-charge. Area charge. Capacitor
Electric field at metal surface. Faraday cage. Screening.
Poisson and Laplace equation
Energy in electric field
Electrically conductive materials
Polarization in dielectric materials
Boundary conditions for D-and-E
Image Charge Method for point charges
Maxwell's 2nd equation--Law of induction
Experiments of Michael Faraday
Magnetostatics
Forces. Electric and Magnetic-Lorentz-Force
Magnetic circuits
Magnetic fields in magnetic circuits
Boundary conditions for B-and-H
Magnetic materials
Self inductance
Energy in magnetic field
Forces at air-gap of a magnetic circuit
Mutual inductance
Transformer
Electrodynamics--EM-waves
General wave equation
Relationship between-E-&-H
Poynting-vector
Polarized light
Harmonic waves
Wave impedance-Z
Dispersion during wave propagation
Reflection at boundary. Normal incidence
Reflection at boundary. Oblique-incidence
Optical EM waves and TIR
Курс лекций от профессора физики в Политехническом Институте Ренселлера. Lumped circuit elements
Transmission-lines. Telegraph and wave equation.
Standing-waves. Impedance matching
Vector fields. Dot and Cross product
Vector calculus. Nabla, gradient, divergence and rotation.
Coordinate systems
Maxwell equations
Electrostatic-potential
Point charges
Line-charge. Area charge. Capacitor
Electric field at metal surface. Faraday cage. Screening.
Poisson and Laplace equation
Energy in electric field
Electrically conductive materials
Polarization in dielectric materials
Boundary conditions for D-and-E
Image Charge Method for point charges
Maxwell's 2nd equation--Law of induction
Experiments of Michael Faraday
Magnetostatics
Forces. Electric and Magnetic-Lorentz-Force
Magnetic circuits
Magnetic fields in magnetic circuits
Boundary conditions for B-and-H
Magnetic materials
Self inductance
Energy in magnetic field
Forces at air-gap of a magnetic circuit
Mutual inductance
Transformer
Electrodynamics--EM-waves
General wave equation
Relationship between-E-&-H
Poynting-vector
Polarized light
Harmonic waves
Wave impedance-Z
Dispersion during wave propagation
Reflection at boundary. Normal incidence
Reflection at boundary. Oblique-incidence
Optical EM waves and TIR