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  • Representing Acceleration with Equations and Graphs
    Introduction
    Course Registration
    Peer Corner
    Pre-Test
    Module 1: Lesson 1: Introduction
    The Scientific Methods
    The Language of Physics: Physical Quantities and Units
    Module 1: Lesson 2: Vectors and Their Components
    Vectors
    Vectors
    Module 1: Lesson 3: Speed, Velocity, and Acceleration
    Relative Motion, Distance, and Displacement
    Speed and Velocity
    Position vs. Time Graphs
    Velocity vs. Time Graphs
    Acceleration
    Representing Acceleration with Equations and Graphs
    Free-Falling Objects
    Projectile Motion
    Practical Activity 1 (70 minutes)
    Module 2: Lesson 1: Newton's Laws of Motion
    Force
    Newton's First Law of Motion: Inertia
    Newton's Second Law of Motion
    Newton's Third Law of Motion
    Newton's Law of Universal Gravitation and Einstein's Theory of General Relativity
    Inclined Planes
    Module 2: Lesson 2: Hooke's Law and Simple Harmonic Motion
    Simple Harmonic Motion
    Practical Activity 2 (70 minutes)
    Module 2: Lesson 3: Uniform Circular Motion and Centripetal Force
    Angle of Rotation and Angular Velocity
    Uniform Circular Motion
    Rotational Motion
    Module 3: Lesson 1: Momentum, Force, and Impulse
    Linear Momentum, Force, and Impulse
    Conservation of Momentum
    Elastic and Inelastic Collisions
    Module 3: Lesson 2: Work, Energy, and Simple Machines
    Work, Power, and the Work-Energy Theorem
    Mechanical Energy and Conservation of Energy
    Simple Machines
    Module 3: Lesson 3: Special Relativity
    Postulates of Special Relativity
    Consequences of Special Relativity
    Module 3: Lesson 4: Thermal Energy, Heat, and Work
    Temperature and Thermal Energy
    Heat, Specific Heat, and Heat Transfer
    Phase Change and Latent Heat
    Practical Activity 3 (70 minutes)
    Module 3: Lesson 5: Thermodynamics
    Zeroth Law of Thermodynamics: Thermal Equilibrium
    First law of Thermodynamics: Thermal Energy and Work
    Second Law of Thermodynamics: Entropy
    Applications of Thermodynamics: Heat Engines, Heat Pumps, and Refrigerators
    Module 4: Lesson 1: Types of Waves
    Types of Waves
    Module 4: Lesson 2: Wave Properties and Interactions
    Wave Properties: Speed, Amplitude, Frequency, and Period
    Wave Interaction: Superposition and Interference
    Module 4: Lesson 3: Sound
    Speed of Sound, Frequency, and Wavelength
    Sound Intensity and Sound Level
    Module 4: Lesson 4: Doppler Effect, Sound Interference, and Resonance
    Doppler Effect and Sonic Booms
    Sound Interference and Resonance
    Practical Activity 4 (90 minutes)
    Module 5: Lesson 1: Fluids, Density, and Surface Tension
    Fluids, Density, and Pressure (Part 1)
    Cohesion and Adhesion
    Module 5: Lesson 2: Hydrostatic Pressure and Pascal's Law
    Density and Pressure
    Practical Activity 5 (60 minutes)
    Module 5: Lesson 3: Archimedes' Principle and Fluid Dynamics
    Archimedes’ Principle
    Fluids in Motion
    Module 5: Lesson 4: Bernoulii's Equation and Venturi Effect
    Bernoulli’s Equation
    Worked Examples- Bernoulli’s Equation
    Module 5: Lesson 5: Viscosity and Turbulence and Poiseuille's Law
    Viscosity and Laminar Flow; Poiseuille’s Law
    Module 5: Lesson 6: Shear, Compression, Elasticity, and Plasticity
    Stress, Strain, and Elastic Modulus (Part 1)
    Stress, Strain, and Elastic Modulus (Part 2)
    Elasticity and Plasticity
    Module 6: Lesson 1: Charges and Coulomb's Law
    Electrical Charges, Conservation of Charge, and Transfer of Charge
    Coulomb's law
    Module 6: Lesson 2: Electric Fields and Potential
    Electric Field
    Electric Potential
    Capacitors and Dielectrics
    Module 6: Lesson 3: Electrical Circuits
    Ohm's law
    Series Circuits
    Parallel Circuits
    Electric Power
    Module 6: Lesson 4: Magnetic Fields, Field Lines, and Force
    Magnetic Fields and Magnetic Field Lines
    Magnetic Fields, Field Lines, and Force
    Module 6: Lesson 5: Motors, Generators, and Transformers
    Motors, Generators, and Transformers
    Module 6: Lesson 6: Electromagnetic Induction
    Electromagnetic Induction
    Practical Activity 6 (90 minutes)
    Module 7: Lesson 1: Electromagnetic Radiation
    The Electromagnetic Spectrum
    The Behavior of Electromagnetic Radiation
    Module 7: Lesson 2: Lenses
    Reflection
    Refraction
    Lenses
    Practical Activity 7 (90 minutes)
    Module 7: Lesson 3: Nature of Light
    Planck and Quantum Nature of Light
    Einstein and the Photoelectric Effect
    The Dual Nature of Light
    Module 8: Lesson 1: Radiation
    The Structure of the Atom
    Nuclear Forces and Radioactivity
    Half Life and Radiometric Dating
    Nuclear Fission and Fusion
    Medical Applications of Radioactivity: Diagnostic Imaging and Radiation
    Practical Activity 8 (60 minutes)
    Module 8: Lesson 2: Particle Physics
    The Four Fundamental Forces
    Quarks
    The Unification of Forces
    Final Exam
    Course and Self Evaluation & Certificate
    Activities
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Representing Acceleration with Equations and Graphs

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