What are you going to learn?
Content
Know the basic laws of electricity, magnetism, and optics(Coulomb’s,Gauss’s,Ohm’s, Kirchhoff’s, Biot-Savart’s, Ampere’s, Faraday’s, Snell’s laws and Maxwell’s equations). Understand concepts of electric and magnetic fields and electric potential. Understand the topic of capacitance. Understand DC and AC circuits. Understand the Lorentz force law and apply it to solve problems.Understand the motion of charged objects in two and three dimensions. Understand the sources of magnetic fields. Know the law of EM induction. Understand EM induction and inductance. Understand Maxwell’s equations and wave equation.
Chapter 1. Electric Charges and Force
The Charge Model
Electric Charges
Insulators and Conductors
Coulomb's Law
The Electric Field
Introduction
Electric Fields of Point Charges
Electric Fields of Continuous Charge Distributions
Electric Fields of Rings, Disks, Planes, and Spheres
The Parallel Plates Capacitor
Motion of a Charge in an Electric Field
Motion of a Dipole in an Electric Field
Chapter 2. Electric Fields
Chapter 3. Gauss's Law
Symmetry
The Concept of Flux
Calculating Electric Flux
Gauss's Law
Conductors in Electrostatic Equilibrium
Chapter 4. The Electric Potential
Electric Potential Energy
Potential Energy of Point Charges
Potential Energy of a Dipole
The Electric Potential
The Electric Potential Inside a Parallel lates Capacitor
The Electric Potential of a Point Charge
The Electric Potential of Many Point Charges
Chapter 5. Electric Potential and Electric Fields
Connecting Potential and Field
Finding the Electric Field From the Potential
A Conductor in Electrostatic Equilibrium
Sources of Electric Potentials
Capacitance and Capacitors
Dielectrics
Chapter 6. Current and Resistance
The Electric Current
Creating a Current
Current and Current Density
Conductivity and Resistivity
Resistance and Ohm's Law
Chapter 7. Fundamentals of Circuits
Circuits Elements and Diagrams
Kirchoff's Laws and the Basic Circuit
Energy and Power
Series Resistors
Real Batteries
Parallel Resistors
Getting Grounded
RC Circuits
Chapter 8. Magnetic Fields
Magnetism
The Discovery of the Magnetic Field
The Source of Magnetic Fields:Moving Charges
The Magnetic Field of a Current
Magnetic Dipoles
Ampere's Law and Solenoids
The Magnetic Force on a Moving Charge
Magnetic Forces on Wires Carrying Currents
Forces and Torques on Current Loops
Magnetic Properties of Matter
Chapter 9. Magnetic Induction
Induced Currents
Motional emf
Lenz's Law
Faraday's Law
Induced Fields
Induced Currents: Three Applications
Inductors
LC Circuits
LR Circuits
Chapter 10. Electromagnetic Waves
The Fields Laws so Far
The Displacement Current
Maxwell's Equations
Electromagnetic Waves (EM)
Properties of EM Waves
Polarization
Chapter 11. AC Circuits
AC Sources and Phasors
Capacitor Circuits
RC Filter Circuits
Inductor Circuits
The Series RLC Circuit
Power in AC Circuts
Bibliography
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Kiusalaas, J, Numerical Methods in Engineering with Python 3. Cambridge University Press, 2013.
Cutnell, John D., Keneth W. Johnson. Physics. 8th Edition,Wiley and Sons 2009.
Kleppner, D., and Robert J. Kolenkow. An Introduction to Mechanics. New York, NY: McGraw-Hill, 1973.
Symon, K, Mechanics, 3rd Edition, Addison-Wesley, 1971.Standing Waves on a String
Waker, J. Fundamentals of Physics Halliday & Resnick. Vol 1. 10th ed. New York, John Wiley, 2014.
Serway, R., and John W. Jewett. Physics for Scientist and Engineers. 6th ed. Thomson, Brooks/Cole, 2004
