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PHYS 122

PHYS 122
Waves, Electricity and Magnetism

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Introduction to Simple Harmonic Motion
SHM Position, Velocity, Acceleration
SHM Energy of a Spring
SHM Pivoting Rod on Spring
SHM Pendulums
SHM Springs in Series 
SHM Damped and Forced Oscillation
SHM Resonance 

Introduction to Travelling Waves
Waves: Traveling Wave on a String
Waves: Speed of Traveling Waves
Waves: Energy of Traveling Waves
Waves: Power of Traveling Waves

Introduction to Sound
Sound: Sound Waves
Sound: Speed of Sound in Various Media
Sound: Periodic Sound Waves
Sound: Sound Intensity
Sound: Decebel Scale
Sound: Superposition of Sinusodial Waves
Sound: Interference of Sound Waves

Introduction to Standing Waves
Standing Waves Harmonics and Frequency
Standing Waves in Air Columns
Standing Waves: Temporal Interference, Beats

Introduction to Doppler's Effect
Doppler's Effect: Observer Moving
Doppler's Effect: Source Moving

Introduction to Electric Charge
Electric Charge: Conservation of Charge
Electric Charge: Conductors and Insulators
Electric Charge: E-Force on Neutral Objects
Electric Charge: Coulomb's Law
Electric Charge: E-Force Between Multiple Point Charges

Introduction to Electric Field
Electric Field: Of a Point Charge
Electric Field: Motion of an Electron
Electric Field: Superposition
Electric Field: The Field at a Point from a Ring of Charge
Electric Field: E-Field of Charged Line Segment
Electric Field: E-Field of Planar Sheets
Electric Field: E-Field of Point Charge
Electric Field: E-Field of Dipole
Electric Field: Force and Torque on E-Dipoles due to E-Fields

Introduction to Electric Flux
Electric Flux: Electric Flux vs Charge vs Electric Field
Electric Flux: Gauss's Law and E-Flux
Electric Flux: E-Flux Through Different Shapes
Electric Flux: E-Flux Inside Shapes
Electric Flux: E-Flux at Surface

Introduction to Electric Potential Energy and Electric Potential (in Uniform E-Field)
Electric Potential Energy(U) vs Electric Potential(V)
EPE&EP: Moving Charges
EPE&EP: EPE and Work
EPE&EP: EPE of Multiple Point Charges
EPE&EP: EP due to E-Field
EPE&EP: EP due to Multiple Point Charges
EPE&EP: EP due to Distribution of Charges
EPE&EP: EP due to Charged Parallel Plates
EPE&EP: EP due to Infinite Length Line Charge
EPE&EP: EP due to Finite Length Line Charge
EPE&EP: EP due to Ring Of Charge
EPE&EP: Moving through an EP Difference
EPE&EP: Equipotential Surfaces & Conductors
EPE&EP: EP Gradient

Introduction to Capacitance and Dielectrics
C&D: Capacitors and Capacitance
C&D: Capacitance of Parallel Plates
C&D: Capacitors in Series and Parallel
C&D: Energy Stored in Capacitor
C&D: Dielectrics
C&D: Dielectric Breakdown and Strength

Introduction to DC Circuits
DC Circuits: Metallic Conduction and Current
DC Circuits: Current Flow, Drift Velocity, Density
DC Circuits: Resistivity
DC Circuits: Ohm's Law
DC Circuits: Resistor Colour Code
DC Circuits: Ohmic vs Non-Ohmic Resistors
DC Circuits: Electromotive "Force"
DC Circuits: Internal Resistance
DC Circuits: A Complete Circuit
DC Circuits: Ammeters and Voltmeters
DC Circuits: Energy and Power in a Circuit
DC Circuits: Kirchoff's Rules
DC Circuits: Resistors in Series and Parallel
DC Circuits: Complex Circuits

Introduction to Magnetism
Magnetism: Magnetic Force on a Moving Charge
Magnetism: M-Force as a Vector Product (Right Hand Rule)
Magnetism: Magnetic Flux
Magnetism: Motion of Charged Particles in a Magnetic Field
Magnetism: Velocity Selector and Mass Spectrometer
Magnetism: M-Force on Current Carrying Conductor
Magnetism: Mechanical Force and Torque on Current Loop
Magnetism: Direct Current Motors



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