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13.1 Simple Harmonic Motion SHM, Springs, and Pendulums
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Classroom Contents
Chad's General Physics - Complete Course Covering Mechanics, Thermodynamics, Electromagnetism, Optics, and Modern Physics
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- 1 1.1 Units
- 2 1.2 Vectors
- 3 2.1 Displacement, Velocity, and Acceleration
- 4 2.2 Introduction to Kinematics Calculations
- 5 2.3 Kinematics Calculations for Freely Falling Objects
- 6 2.4 Diagrams of Position vs Time
- 7 2.5 Diagrams of Velocity vs Time
- 8 3.1 Relative Motion
- 9 3.2 Projectile Motion in One and Two Dimensions
- 10 3.3 Projectile Motion Example #2 Drop in height of a ball thrown by a pitcher
- 11 3.4 Projectile Motion Example #3 Projectile Fired at a Building
- 12 4.1 Introduction to Forces, Fields, and Newton's Laws of Motion
- 13 4.2 Introduction to Gravity, Normal Force, and Friction
- 14 4.3 Examples Involving a Scale on an Elevator
- 15 4.4 Examples Involving Pulling on a Horizontal Surface
- 16 4.5 Examples Involving Inclined Planes
- 17 4.6 Example Involving Tension
- 18 4.7 Examples Involving Pulleys
- 19 5.1 Work
- 20 5.2 Mechanical Energy
- 21 5.3 Springs
- 22 5.4 Power
- 23 5.5 Work by a Varying Force
- 24 6.1 Momentum and Impulse
- 25 6.2 Introduction to Elastic, Inelastic, and Perfectly Inelastic Collisions
- 26 6.3 Collisions Example #1 An Inelastic Collision
- 27 6.4 Collisions Example #2 Exploding Fragments as a Perfectly Inelastic Collision in Reverse
- 28 6.5 Collisions Example #3 Determining the Speed of a Bullet
- 29 7.1 Rotational Kinematics
- 30 7.2 Centripetal Force and Acceleration
- 31 7.3 Examples Involving Centripetal Force and Acceleration
- 32 7.4 Gravity and Centripetal Force and Acceleration
- 33 7.5 Kepler's Laws of Planetary Motion
- 34 8.1 Introduction to Torque and Rotational Inertia
- 35 8.2 Torque for a Door on a Hinge
- 36 8.3 Torque Problems for Systems in Equilibrium Example #1
- 37 8.4 Torque Problems for Systems in Equilibrium Example #2
- 38 8.5 Torque Problems for Systems in Equilibrium Example #3
- 39 8.6 Angular Momentum and Rotational Kinetic Energy
- 40 9.1 Elasticity of Solids
- 41 9.2 Density and Pressure
- 42 9.3 Manometers and Barometers
- 43 9.4 Buoyancy and Archimedes' Principle
- 44 9.5 The Hydraulic Jack
- 45 9.6 Hydrodynamics Laminar Flow and The Equation of Continuity
- 46 9.7 Hydrodynamics Bernoulli's Equation
- 47 10.1 Pressure and Gas Laws
- 48 10.2 The Combined Gas Law and Dalton's Law of Partial Pressures
- 49 10.3 The Kinetic Model of Gases and the Perfect Gas Law
- 50 10.4 Maxwell Distribution of Speeds
- 51 11/12.1 Introduction to the First Law of Thermodynamics
- 52 11/12.2 Heat Capacities
- 53 11/12.3 Internal Energy, Enthalpy, and Cp/Cv
- 54 11/12.4 Expansion Work
- 55 11/12.5 Calculations and Derivations Involving Internal Energy and Enthalpy
- 56 11/12.6 The 2nd and 3rd Laws of Thermodynamics and Entropy
- 57 11/12.7 Entropy Changes During Expansion and Heating
- 58 13.1 Simple Harmonic Motion SHM, Springs, and Pendulums
- 59 13.2 The Frequency and Period of SHM
- 60 13.3 Waves
- 61 13.4 Standing Waves
- 62 14.1 Wave Nature and Speed of Sound
- 63 14.2 Sound Intensity and Intensity Level
- 64 14.3 Doppler Effect
- 65 15.1 Charge, Insulators, and Conductors
- 66 15.2 Coulomb's Law
- 67 15.3 Electric Fields
- 68 15.4 Conductors in Electrostatic Equilibrium
- 69 15.5 Gauss's Law and Electric Flux
- 70 16.1 Electric Potential and Potential Energy
- 71 16.2 Capacitance and Parallel Plate Capacitors
- 72 16.3 Capacitors in DC Circuits
- 73 17.1 Current and Ohm's Law
- 74 17.2 Resistance
- 75 17.3 Resistors in DC Circuits
- 76 17.4 Voltmeters and Ammeters
- 77 18.1 Sources of Emf
- 78 18.2 Complex Circuits and Kirchoff's Rules
- 79 18.3 RC Circuits
- 80 19.1 Introduction to Magnetic Fields
- 81 19.2 Magnetic Force on a Charge in Motion
- 82 19.3 Magnetic Force on a Current Carrying Wire
- 83 19.4 Torque on a Current Carrying Loop
- 84 19.5 Magnetic Field Due to a Current Carrying Wire
- 85 19.6 Magnetic Field at the Center of a Current Carrying Loop
- 86 19.7 Magnetic Field at the Center of a Solenoid
- 87 19.8 Final Thoughts on Magnetism
- 88 20.1 Introduction to Faraday's Law and Lenz's Law
- 89 20.2 Application of Faraday's Law and Lenz's Law
- 90 20.3 Motional Emf
- 91 20.4 Generators, Motors, and Back Emf
- 92 20.5 Mutual Inductance and Transformers
- 93 20.6 Self Inductance
- 94 20.7 RL Circuits
- 95 21.1 Rms Current and Voltage in AC Circuits
- 96 21.2 Maxwell's Theory of Electromagnetism
- 97 21.3 Introduction to Electromagnetic Radiation
- 98 21.4 Energy, Power, and Intensity of Electromagnetic Waves
- 99 21.5 The Doppler Effect
- 100 21.6 The Polarization of Light
- 101 22.1 Plane Mirrors and the Law of Reflection
- 102 22.2 Indexes of Refraction
- 103 22.3 Snell's Law of Refraction
- 104 22.4 Total Internal Reflection
- 105 22.5 Apparent Depth
- 106 23.1 Introduction to Spherical Mirrors and Thin Lenses
- 107 23.2 Concave Converging Mirrors
- 108 23.3 Convex Diverging Mirrors
- 109 23.4 Diverging Lenses
- 110 23.5 Converging Lenses
- 111 23.6 Calculations Involving Mirrors and Thin Lenses
- 112 23.7 Combinations of Lenses
- 113 23.8 Vision Correction
- 114 24.1 Double Slit Interference
- 115 24.2 Thin Film Interference
- 116 24.3 Diffraction Gratings and Single Slit Interference
- 117 25.1 Blackbody Radiation
- 118 25.2 The Photoelectric Effect
- 119 25.3 The Bohr Model of the Atom and Electronic Transitions
- 120 25.4 The Compton Effect
- 121 25.5 The DeBroglie Wavelength of Matter
- 122 25.6 Wave Functions
- 123 25.7 The Heisenberg Uncertainty Principle
