Physics Learning Resources
Concept-first explanations, algebraic problem solving, lab investigations, and computational extensions for physics students.
Concept Notes
Topic pages that explain the why before the equation: forces, energy, waves, rotation, gravity, circuits, and fluids.
Problem Sets
Clean worksheets with conceptual prompts, derivations, numerical examples, and teacher solution sets.
Labs & Modeling
Student investigations that use data, graphing, uncertainty, and simple Python tools to build physical models.
Units
Explore detailed unit content below.
Honors + AP: Units, Dimensional Analysis & Spatial Reasoning
SI units, dimensional checking, unit conversions, spatial reasoning, and a guided sunset inquiry to estimate Earth’s radius.
Open Units & Dimensions →AP Physics C: Kinematics
Vectors, 1D & 2D motion, calculus-based derivations, projectile motion, graphs, relative & circular motion, with AP-style problems.
Open Kinematics Unit →AP Physics C: Fluids Unit
Density, pressure, Pascal’s principle, buoyancy, fluid flow, Bernoulli’s equation, viscosity, and AP-style review problems.
Open Fluids Unit →Waves & EM Radiation
NGSS HS-PS4 aligned: wave properties, the EM spectrum, wave–particle models, reflection, refraction, optics, digital information, and wave technology.
Open Waves & EM Unit →Honors + AP: Acoustics
NGSS HS-PS4 aligned: sound waves, echoes, Doppler effect, sonic booms, interference, beats, standing waves, resonance, and a closed-pipe inquiry lab.
Open Acoustics Unit →AP Physics C: Thermodynamics
Laws of thermodynamics, ideal gases, kinetic theory, calculus-based work, entropy, p–V graphs, and an absolute-zero inquiry lab.
Open Thermodynamics Unit →AP Physics C: Calculus & Vectors Refresher
Derivatives, integrals, u-substitution, vector notation, dot products, cross products—the mathematical toolkit for AP Physics C.
Open Calculus & Vectors →Electrostatics & Circuits
Benjamin Franklin, electrostatic demonstrations, Coulomb’s Law, electric fields, voltage, capacitance, Ohm’s Law, series & parallel circuits, Kirchhoff’s Laws, and a circuit simulator inquiry.
Open Electrostatics & Circuits →