• test 1 (2005-Present) ttopics include dot product, cross product, vector normalization, gradient, divergence, curl, Laplacian, gradient word problems, meaningless vector operations, Cartesian coordinate system, cylindrical coordinate system, spherical coordinate system
  • test 2 (2005-Present) topics include intersection of regions, total line charge, electric field from surface charge distribution, divergence theorem, surface integration, electric bounary conditions, dielectric constant, permitivity, flux density vector
  • test 3 (2005-Present) topics includes steady state current, current density vector, free charge density, charge conservation equation, Poissons equation for multiple regions, Laplaces equation, capacitance, potential contour sketching, zero volt contour, electric field sketching
  • test 4 (2005-Present) topics include Biot Savart law, magnetic field from line current distribution, magnetic field from surface current distribution, magnetic field boundary conditions, permeability, magnetic flux density, Stokes theorem, line integration
  • test 5 (2005-Present) topics include Faradays law, Lenzs law, electromotive force (emf), motional emf, transformer emf

As to be expected, my teaching style has changed over the years.  As a result, the following tests, although grouped according to subject matter, have different labeling schemes.

  • topics 1 includes dot product, cross product, vector normalization, gradient, divergence, curl , Laplacian, vector projection, perpendicular vectors, parallel vectors, differential lenth, differential surface, differential surface vector, differential volume, meaningless vector operations, Cartesian coordinate system, cylindrical coordinate system, spherical coordinate system, intersection of regions, divergence theorem, surface integration, Stokes theorem, line integration, gradient word problems, prolate spheroidal coordinate system
  • topics 2a topics 2b includes Coulombs law, electric field from line and surface charge distributions, electric flux, dipole motion in electric field, charged particle trajectory, electrostatic field, work in electric field, potential contour sketching, electric field sketching, Poissons equation for mulitple regions, Laplaces equation, electric field boundary conditions, dielectric constant, permittivity, flux density vector, steady state current, current density vector, free charge density, charge conservation equation, induced current
  • topics 3 includes Biot Savart law, magnetic field plotting, Amperes law, magnetic field fron line current distribution, magnetic field from surface current distribution, magnetic vector potential, mutual inductance, force, torque, magnetic scalar potential
  • topics 4 includes magnetic circuit problems, magnetomotive force (mmf), magnetic flux, reluctance, hysteresis
  • topics 5 includes Faradays law, Lenzs law, electromotive force (emf), motional emf, transformer emf, time and frequency domain conversion
  • topics 6 includes dielectrophoretic force, mutual capacitance
  • topics 7 includes Mathcad student problems on Poissons equation for multiple regions, charged particle trajectories, dielectrophoretic force