Electricity and Magnetism (18 Lectures):

• Electric field and potential:
  • Definition of point charge.
  • Coulomb’s law.
  • The electric field E.
  • Force on a charge q in electric field E.
  • Electric potential.
  • Charge q traversing electric potential ∆V.
  • Definition of the electron volt.
  • Electric potential energy.
  • Charge q in a conducting sphere.
  • Resulting E and V. 
• Capacitors:
  • Q=CV.
  • Capacitance of the parallel plate capacitor and the electric field between charged plates.
  • Dielectrics.
  • Energy stored in a charged capacitor and energy density in terms of E.
  • Capacitors in series and parallel.
• Ohm’s Law:
  • Resistors in series and parallel.
  • Emf, internal resistance and terminal potential difference of a battery. Kirchhoff’s laws and applications.
  • Electric power for DC and AC voltages.  
• Magnetism:
  • Force on current-carrying wire in a magnetic field.
  • Definition of magnetic field B.
  • Force due to B on charge q moving with velocity v.
  • B due to a long straight current-carrying wire and a solenoid.
  • Force between current-carrying conductors.
  • Definition of the Coulomb and Ampere.
• Electromagnetic Induction:
  • Faraday’s law of electromagnetic induction.
  • Lenz’s law.
  • Motional emf.
  • The inductance L.
  • Energy stored in an inductor and energy density in terms of B.
  • Electric generators.  
• Introduction to Electronics
  • Logic Gates and their truth tables.
  • P-type and n-type semiconductors.
  • Diodes.