Physics 122 Lecture Notes
22. ELECTRIC FORCE AND ELECTRIC CHARGE
22.1. Introduction
22.2. Charge Quantization and Charge Conservation
22.3. Conductors and Insulators
23. THE ELECTRIC FIELD
23.1. Introduction
23.2. The Superposition of Electric Forces
Example: Problem 23.30
23.3. The Electric Field
Example: Electric Field of Point Charge Q.
Example: Electric Field of Charge Sheet.
Example: Problem 23.26
23.4. Field Lines
23.5. Electric Dipole in an Electric Field
24. GAUSS LAW
24.1. Introduction
24.2. Gauss' Law
Example 1: Field of point charge.
Example 2: Problem 24.16
24.3. Conductors in Electric Fields
25. THE ELECTROSTATIC POTENTIAL
25.1. Introduction
25.2. Calculating the Electrostatic Potential
Example: Problem 25.21
Example: Problem 25.15
25.3. The Electrostatic Field as a Conservative Field
25.4. The Gradient of the Electrostatic Potential
Example: Problem 25.32
Example: Problem 25.36
25.5. The Potential and Field of a Dipole
26. ELECTRIC ENERGY OF A SYSTEM OF POINT CHARGES
26.1 Introduction
Example: Problem 26.6
26.2 Energy of a System of Conductors
Example: Problem 26.27
27. CAPACITORS AND DIELECTRICS.
27.1. Introduction
27.2. The parallel-plate capacitor
Example: Problem 27.7
27.3. Capacitors in Combination
Example: Problem 27.10
Example: Problem 27.13
27.4. Dielectrics
Example: Problem 27.19
27.5. Gauss Law in Dielectrics
Example: Problem 27.25
27.6 Energy in Capacitors
Example: Problem 27.40
Example: Problem 27.39
28. CURRENTS AND OHMS LAW
28.1. Electric Current
Example: Problem 28.5
28.2. The resistivity of materials
Example: Problem 28.17
Example: Problem 28.12
28.3. Resistance in combination
Example: Problem 28.41
Example: Problem 28.42
29. DC CIRCUITS
29.1. Electromotive Force
27.2. Single-loop currents
29.3. Multi-loop circuits.
Example: Problem 29.10
29.4. Energy in circuits
Example: Example 8
Example: Problem 29.24.
Example: Problem 29.32
29.5. The RC circuit
30. THE MAGNETIC FORCE AND FIELD.
30.1. The magnetic force
Example: Problem 30.10
30.2. The Biot-Savart Law
Example: Problem 30.33
Example: Problem 30.22
30.3. The magnetic dipole
Example: Problem 30.44
31. AMPERES LAW
31.1. Introduction
Example: Problem 31.5
31.2. The solenoid
Example: Problem 31.14
Example: Problem 31.15
31.3. Motion of charges in electric and magnetic fields
31.4. Crossed electric and magnetic fields
31.5. Forces on a wire
Example: Problem 31.33
31.6. Torque on a current loop
32. ELECTROMAGNETIC INDUCTION
32.1. Motional emf
Example: Problem 32.13
Example: Problem 32.12
32.2. The Induced Electric-Field
32.3 Inductance
Example: Problem 32.32
32.4. Magnetic Energy
Example: Problem 32.46
32.5. The RL circuit
Example: Problem 32.54
33. MAGNETIC MATERIALS
33.1. Magnetic Moments
Example: Problem 33.2
3.2. Paramagnetism
Example: Problem 33.16
33.3. Ferromagnetism
Example: Problem 33.22
33.4. Diamagnetism
34. AC CIRCUITS
34.1. Alternating Current
34.2. AC Resistor Circuits
34.3. AC Capacitor Circuits
34.4. AC Inductive Circuit
Example: Problem 34.10
34.5. LC Circuits
34.6. The Phasor Diagram
Example: Problem 34.26
Example: Problem 34.32
34.7. The Transformer
35. THE DISPLACEMENT CURRENT AND MAXWELLS EQUATIONS
35.1. The displacement current
Example: Problem 35.8
35.2. Maxwells Equations
Example: Problem 35.10
35.3. Cavity Oscillations
35.4. The Electric Field of an Accelerated Charge
Example: Problem 35.25
35.5. The magnetic field of an accelerated charge
36. LIGHT AND RADIO WAVES
36.1. Electromagnetic waves
Example: Problem 36.3
36.2. Plane Harmonic Waves
Example: Problem 36.7
Example: Problem 36.8
36.3. The Generation of Electromagnetic Waves
36.4. Energy of a Wave
Example: Problem 36.20
Example: Problem 36.27
36.5. Momentum of a Wave
Example: Problem 33
36.6. The Doppler Shift of Light
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