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The High School Physics Course contains 98 self-grading microlearning lessons that you can use instantly in your Learning Management System (LMS).

High School Physics covers the scope and sequence requirements of a typical one-year physics course. This course provides comprehensive coverage of physical concepts, quantitative examples and skills, and interesting applications. High School Physics has been designed to meet and exceed the requirements of the relevant Texas Essential Knowledge and Skills (TEKS), while allowing significant flexibility for instructors.

Qualified and experienced Texas faculty were involved throughout the development process to ensure effectiveness and usability. Reviewers considered each resource’s clarity, accuracy, student support, assessment rigor and appropriateness, alignment to TEKS, and overall quality. The writers and reviewers also considered common course issues, effective teaching strategies, and student engagement to provide instructors and students with useful, supportive content and drive effective learning experiences.


High School Physics presents physical laws, research, concepts, and skills in a logical and engaging progression that should be familiar to most physics faculty. The course begins with a general introduction to physics and scientific processes, which is followed by several modules on motion and Newton’s laws. After mechanics, the students will move through thermodynamics, waves and sound, and light and optics. Electricity and magnetism and nuclear physics complete the course, however you can use each lesson in whatever order you choose.

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  • Physics: Definitions and Applications
  • The Scientific Methods
  • The Language of Physics: Physical Quantities and Units
  • Final Assessment
  • Relative Motion, Distance, and Displacement
  • Speed and Velocity
  • Position vs Time Graphs
  • Velocity vs Time Graphs
  • Final Assessment
  • Acceleration
  • Representing Acceleration with Equations and Graphs
  • Final Assessment
  • Force
  • Newton’s First Law of Motion: Inertia
  • Newton’s Second Law of Motion
  • Newton’s Third Law of Motion
  • Final Assessment
  • Vector Addition and Subtraction: Graphical Methods
  • Vector Addition and Subtraction: Analytical Methods
  • Projectile Motion
  • Inclined Planes
  • Simple Harmonic Motion
  • Final Assessment
  • Angle of Rotation and Angular Velocity
  • Uniform Circular Motion
  • Rotational Motion
  • Final Assessment
  • Kepler’s Laws of Planetary Motion
  • Newton’s Law of Universal Gravitation and Einstein’s Theory of General Relativity
  • Final Assessment
  • Linear Momentum, Force, and Impulse
  • Conservation of Momentum
  • Elastic and Inelastic Collisions
  • Final Assessment
  • Work, Power, and the Work–Energy Theorem
  • Mechanical Energy and Conservation of Energy
  • Simple Machines
  • Final Assessment
  • Postulates of Special Relativity
  • Consequences of Special Relativity
  • Final Assessment
  • Temperature and Thermal Energy
  • Heat, Specific Heat, and Heat Transfer
  • Phase Change and Latent Heat
  • Final Assessment
  • 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
  • Final Assessment
  • Types of Waves
  • Wave Properties: Speed, Amplitude, Frequency, and Period
  • Wave Interaction: Superposition and Interference
  • Final Assessment
  • Speed of Sound, Frequency, and Wavelength
  • Sound Intensity and Sound Level
  • Doppler Effect and Sonic Booms
  • Sound Interference and Resonance
  • Final Assessment
  • The Electromagnetic Spectrum
  • The Behavior of Electromagnetic Radiation
  • Final Assessment
  • Reflection
  • Refraction
  • Lenses
  • Final Assessment
  • Understanding Diffraction and Interference
  • Applications of Diffraction, Interference, and Coherence
  • Final Assessment
  • Electrical Charges, Conservation of Charge, and Transfer of Charge
  • Coulomb’s law
  • Electric Field
  • Electric Potential
  • Capacitors and Dielectrics
  • Final Assessment
  • Ohm’s law
  • Series Circuits
  • Parallel Circuits
  • Electric Power
  • Final Assessment
  • Magnetic Fields, Field Lines, and Force
  • Motors, Generators, and Transformers
  • Electromagnetic Induction
  • Final Assessment
  • Planck and Quantum Nature of Light
  • Einstein and the Photoelectric Effect
  • The Dual Nature of Light
  • Final Assessment
  • 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
  • Final Assessment
  • The Four Fundamental Forces
  • Quarks
  • The Unification of Forces
  • Final Assessment

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