Subject8 topics62 concepts12 starter tracks1 bridge
Physics
Enter the current physics catalog through live motion, waves, fields, circuits, and modern-physics benches that still share one compact simulation-first product language.
Featured topics
Concept library
Find a concept fast, then move straight into the live page.
The catalog, subject filters, topic routes, starter tracks, and local-progress cues all come from the canonical concept system. This first band stays compact so the real browser and results land quickly.
Start here
Pick one concept, use the real controls, and keep the graph close.
If you want the first move chosen for you, use Start here. If you already know how you want to browse, the subject and topic routes, starter tracks, and challenge hub still point back into the same shared concept-page framework.
Subjects
Enter by subject before you narrow into topics, tracks, and concepts.
Subject4 topics6 concepts2 starter tracks1 bridge
Math
Enter the current math slice through functions, change, vectors, complex-plane geometry, and parametric motion without leaving the same live-bench product language used elsewhere on the site.
Starter tracks
Subject2 topics4 concepts2 starter tracks
Chemistry
Enter the current chemistry slice through one bounded reaction branch and one bounded solutions-and-pH branch without leaving the same simulation-first product architecture.
Featured topics
Starter tracks
Concept library
Search fast, then keep the main results in view.
Filtered view: Physics. This view stays restorable in the URL.
62 results of 72
Workspace cues
Narrow by subject first, then topic. Filters and sort stay in the URL so this view restores cleanly when you share or reopen it.
Type to narrow the library by concept name, subject, topic, starter track, difficulty, tag, or highlight.
Subject
Topic
Sort
Progress
More filtersStarter-track lens and extra narrowing
Good first concept
Simple Harmonic Motion
Strong first concept for getting into the catalog without committing to a full track.
Start SHMGuided path
Gravity and Orbits
Start with one source mass creating a field and potential well, then use that same gravity model to explain circular speed, orbital periods, and the escape threshold.
Start Gravity and OrbitsPhysics62 concepts
Oscillations
11 conceptsPhysicsOscillationsGood first conceptIntro25 minNot startedMastery: New
Simple Harmonic Motion
See one repeating system from displacement to acceleration and back again, with the math tied directly to the motion on screen.
Oscillations and Energy - 1/3Waves - 1/9
AmplitudePhase
Strong first concept for getting into the current catalog.
Open conceptPhysicsOscillationsIntro25 minNot startedMastery: New
Oscillation Energy
Watch kinetic and potential energy trade places in simple harmonic motion while the total stays fixed by amplitude and spring stiffness.
Oscillations and Energy - 2/3
Kinetic energyPotential energy
PhysicsOscillationsIntro25 minNot startedMastery: New
Wave Speed and Wavelength
Follow one traveling wave across the same medium and connect crest spacing, travel delay, source timing, and the relation v = f lambda on one honest live stage.
Waves - 2/9
v = f lambdaTravel delay
PhysicsOscillationsIntro20 minNot startedMastery: New
Beats
Superpose two nearby sound frequencies, watch the fast carrier sit inside a slower envelope, and connect beat rate to the frequency difference on one compact bench.
Waves - 5/9Sound and Acoustics - 3/5
Amplitude envelopeBeat frequency
PhysicsOscillationsIntermediate25 minNot startedMastery: New
Doppler Effect
Watch a moving sound source compress wavefronts ahead and stretch them behind, then see how source motion and observer motion combine to change the heard pitch on one bounded classical bench.
Waves - 6/9Sound and Acoustics - 4/5
Compressed wavefrontsMoving observer
PhysicsOscillationsIntro20 minNot startedMastery: New
Pitch, Frequency, and Loudness / Intensity
Keep one compact sound bench while separating pitch from frequency, loudness from amplitude and an amplitude-squared intensity cue, and probe delay from the source sound itself.
Waves - 4/9Sound and Acoustics - 2/5
Pitch from frequencyLoudness from amplitude
PhysicsOscillationsIntro25 minNot startedMastery: New
Sound Waves and Longitudinal Motion
See sound as a longitudinal wave by keeping parcel motion, compression and rarefaction, probe timing, and energy transfer tied to one compact medium-first bench.
Waves - 3/9Sound and Acoustics - 1/5
Compression and rarefactionParticle vs wave motion
PhysicsOscillationsIntermediate30 minNot startedMastery: New
Wave Interference
Superpose two coherent sources, trace their path difference to phase difference, and watch bright and dark regions emerge on the same live screen.
Waves - 7/9
Constructive interferenceDestructive interference
PhysicsOscillationsIntermediate30 minNot startedMastery: New
Standing Waves
Track fixed nodes, moving antinodes, and harmonic mode shapes on one live string while the same probe trace shows the underlying oscillation in time.
Waves - 8/9
NodesAntinodes
PhysicsOscillationsIntermediate30 minNot startedMastery: New
Resonance in Air Columns / Open and Closed Pipes
Compare open and closed pipe boundary conditions on one compact air column so standing-wave shapes, missing even harmonics, probe motion, and pressure cues stay tied to the same resonance state.
Waves - 9/9Sound and Acoustics - 5/5
Open vs closed endsOdd-only closed harmonics
PhysicsOscillationsIntro25 minNot startedMastery: New
Uniform Circular Motion
Track a particle moving at constant speed around a circle and connect radius, angular speed, tangential speed, centripetal acceleration, and the inward-force requirement to the same live state.
Motion and Circular Motion - 3/3
RadiusTangential velocity
Resonance
1 conceptPhysicsResonanceIntermediate30 minNot startedMastery: New
Damping / Resonance
Explore how damping removes energy, how driving frequency changes amplitude, and why resonance becomes dramatic near the natural frequency.
Oscillations and Energy - 3/3
Drive frequencyAmplitude response
Mechanics
15 conceptsPhysicsMechanicsIntro25 minNot startedMastery: New
Vectors and Components
Rotate and scale a live vector, decompose it into horizontal and vertical parts, and watch those components drive the same straight-line motion and geometry.
Motion and Circular Motion - 1/3Vectors and Motion Bridge - 2/2
MagnitudeAngle
PhysicsMechanicsIntro25 minNot startedMastery: New
Torque
Push on one pivoted bar and see how lever arm distance, force direction, and turning effect stay tied to the same compact rotational bench.
Rotational Mechanics - 1/5
Lever armForce direction
PhysicsMechanicsIntro25 minNot startedMastery: New
Rotational Inertia / Moment of Inertia
Keep the same total mass and torque, then slide equal masses inward or outward to see why moment of inertia makes some rotors much harder to spin up than others.
Rotational Mechanics - 3/5
Mass radiusMoment of inertia
PhysicsMechanicsIntro25 minNot startedMastery: New
Static Equilibrium / Centre of Mass
Shift one support region under one loaded plank and see how centre of mass, support reactions, and torque balance decide whether the object stays stable or tips.
Rotational Mechanics - 2/5
Centre of massSupport region
PhysicsMechanicsIntermediate25 minNot startedMastery: New
Angular Momentum
Treat angular momentum as rotational momentum on one compact rotor where mass radius and spin rate stay tied to the same readouts, response maps, and same-L conservation story.
Rotational Mechanics - 5/5
L = I omegaSame L, different spin
PhysicsMechanicsIntro25 minNot startedMastery: New
Momentum and Impulse
Push one cart with a timed force pulse and watch momentum, impulse, and force-time area stay tied to the same motion, readouts, and graphs.
p = mvJ = F delta t
PhysicsMechanicsIntermediate30 minNot startedMastery: New
Rolling Motion
Roll a sphere, cylinder, hoop, or custom mass distribution down one incline and see how rolling without slipping ties translation, rotation, and rotational inertia to the same honest run.
Rotational Mechanics - 4/5
No-slip linkInertia factor
PhysicsMechanicsIntro30 minNot startedMastery: New
Conservation of Momentum
Watch two carts trade momentum through one bounded internal interaction and see the total stay fixed while the individual momenta, velocities, and center-of-mass motion update together.
Isolated systemsTotal momentum
PhysicsMechanicsIntro30 minNot startedMastery: New
Collisions
Collide two carts on one honest track, keep total momentum in view, and see how elasticity, mass, and incoming speed shape the rebound or stick-together outcome.
Momentum conservationElastic vs inelastic
PhysicsMechanicsGood first conceptIntro25 minNot startedMastery: New
Projectile Motion
Launch a projectile, watch the trajectory form, and connect the range, height, and component motion to the launch settings.
Motion and Circular Motion - 2/3
Launch angleGravity
Strong first concept for getting into the current catalog.
Open conceptPhysicsMechanicsIntermediate30 minNot startedMastery: New
Circular Orbits and Orbital Speed
See why a circular orbit needs the right sideways speed, how gravity supplies the centripetal acceleration, and how source mass and radius together set orbital speed and period on one bounded live model.
Gravity and Orbits - 3/5
Gravity as centripetal accelerationOrbital speed
PhysicsMechanicsIntro25 minNot startedMastery: New
Gravitational Fields
See how one source mass creates an inward gravitational field, how source mass and distance set the field strength, and how a probe mass turns that field into force without changing the field itself.
Gravity and Orbits - 1/5
Field directionInverse-square drop
PhysicsMechanicsIntro25 minNot startedMastery: New
Gravitational Potential and Potential Energy
See one source mass create a negative potential well, compare how potential and potential energy change with distance, and connect the downhill slope of phi to the gravitational field on the same live model.
Gravity and Orbits - 2/5
Negative potential wellsU = m phi
PhysicsMechanicsIntermediate25 minNot startedMastery: New
Kepler's Third Law and Orbital Periods
Compare circular orbits around one source mass and see why larger orbits take longer: the path is longer, the circular speed is lower, and the same live model makes the period law visible without hiding the gravity-speed link.
Gravity and Orbits - 4/5
T^2 proportional to r^3Longer path and lower speed
PhysicsMechanicsIntermediate30 minNot startedMastery: New
Escape Velocity
Launch outward from one bounded gravity source and see how source mass, launch radius, and total specific energy decide whether the object escapes or eventually returns.
Gravity and Orbits - 5/5
Escape thresholdTotal specific energy
Fluids
5 conceptsPhysicsFluidsIntro30 minNot startedMastery: New
Bernoulli's Principle
Follow one steady ideal-flow pipe and see how pressure, speed, and height trade within the same Bernoulli budget while continuity keeps the flow-rate story honest.
Fluid and Pressure - 3/5
P + 1/2 rho v^2 + rho g yContinuity plus Bernoulli
PhysicsFluidsIntro30 minNot startedMastery: New
Buoyancy and Archimedes' Principle
Use one immersed-block bench to connect pressure difference, displaced fluid, and the density balance behind floating, sinking, and neutral buoyancy.
Fluid and Pressure - 4/5
Displaced fluidDensity balance
PhysicsFluidsIntro25 minNot startedMastery: New
Continuity Equation
Keep one steady stream tube on screen and use Q = Av to connect cross-sectional area, flow speed, and the same volume flow rate through narrow and wide sections.
Fluid and Pressure - 2/5
Q = AvNarrower means faster
PhysicsFluidsIntro30 minNot startedMastery: New
Drag and Terminal Velocity
Drop one body through a fluid and use mass, area, and drag strength to see drag grow with speed until force balance settles into terminal velocity.
Fluid and Pressure - 5/5
F_d = k A v^2Force balance
PhysicsFluidsIntro30 minNot startedMastery: New
Pressure and Hydrostatic Pressure
Use one piston-and-tank bench to connect force per area, pressure acting in all directions, and the way density, gravity, and depth build hydrostatic pressure.
Fluid and Pressure - 1/5
Force / areaSame-depth pressure
Thermodynamics
4 conceptsPhysicsThermodynamicsIntro30 minNot startedMastery: New
Heat Transfer
See heat as energy transfer driven by temperature difference while conduction, convection, and radiation compete on one compact bench with honest pathway rates.
Thermodynamics and Kinetic Theory - 3/4
ConductionConvection
PhysicsThermodynamicsIntro30 minNot startedMastery: New
Ideal Gas Law and Kinetic Theory
Connect pressure, volume, temperature, and particle number on one bounded particle box, then read the same pressure changes back as changes in particle speed and wall-collision rate.
Thermodynamics and Kinetic Theory - 2/4
P-V-T-N linkWall collisions
PhysicsThermodynamicsIntro35 minNot startedMastery: New
Specific Heat and Phase Change
See why the same energy pulse changes different materials by different temperature amounts, and why a phase-change shelf can absorb or release energy without changing temperature on one compact thermal bench.
Thermodynamics and Kinetic Theory - 4/4
Q = m c delta TLatent-heat shelf
PhysicsThermodynamicsGood first conceptIntro30 minNot startedMastery: New
Temperature and Internal Energy
Compare average particle motion with whole-sample energy, vary amount and heating, and see why a phase-change shelf breaks naive temperature-only reasoning on one compact thermal bench.
Thermodynamics and Kinetic Theory - 1/4
Average particle motionAmount matters
Strong first concept for getting into the current catalog.
Open conceptElectricity
6 conceptsPhysicsElectricityIntro25 minNot startedMastery: New
Electric Fields
See how source-charge sign, distance, and superposition set the electric field at one probe, then watch a test charge turn that field into a force without changing the field itself.
Electricity - 1/6
Field directionSuperposition
PhysicsElectricityIntro25 minNot startedMastery: New
Electric Potential
Map how source-charge sign and distance shape electric potential, compare potential differences across one honest scan line, and connect the downhill slope of V to the electric field.
Electricity - 2/6
Potential mapsEquipotentials
PhysicsElectricityIntro25 minNot startedMastery: New
Basic Circuits
Keep one battery and two resistors in view while current, voltage, resistance, Ohm's law, and the contrast between series and parallel all stay tied to one honest circuit.
Electricity - 3/6
CurrentVoltage
PhysicsElectricityIntro25 minNot startedMastery: New
Power and Energy in Circuits
Keep one source and one resistive load in view while current, power, and accumulated energy over time stay tied to the same honest circuit.
Electricity - 4/6
P = IVE = Pt
PhysicsElectricityIntro30 minNot startedMastery: New
Series and Parallel Circuits
Switch the same two loads between one loop and two branches, then track how current, voltage, brightness, and charge flow reorganize without changing the battery.
Electricity - 5/6
Current splitVoltage sharing
PhysicsElectricityIntro30 minNot startedMastery: New
Equivalent Resistance
Reduce one highlighted resistor group into an equivalent block, then collapse the whole mixed circuit honestly and watch how the total current and grouped behavior change together.
Electricity - 6/6
Reduce one groupR_group to R_eq
Optics
10 conceptsPhysicsOpticsIntro25 minNot startedMastery: New
Light as an Electromagnetic Wave
Connect electromagnetic waves to visible light, color, frequency, and the broader spectrum while one compact stage keeps the spectrum rail, field-pair sketch, and medium-linked wavelength changes tied together.
Visible bandColor and frequency
PhysicsOpticsIntro25 minNot startedMastery: New
Polarization
Use one compact polarizer bench to see polarization as the orientation story of transverse waves, how angle mismatch sets transmitted light, and why one ideal polarizer makes unpolarized light emerge with one chosen axis.
Wave Optics - 1/5
Transverse orientationMalus's law
PhysicsOpticsIntermediate30 minNot startedMastery: New
Diffraction
Watch a wave spread after one narrow opening, see why diffraction grows when wavelength competes with slit width, and build the wave-optics bridge toward double-slit interference.
Wave Optics - 2/5
Slit width vs wavelengthCentral peak width
PhysicsOpticsIntermediate30 minNot startedMastery: New
Double-Slit Interference
Use two coherent slits and one screen to connect path difference, phase difference, and fringe spacing to wavelength, slit separation, and screen distance on one compact optics bench.
Wave Optics - 3/5
Path differenceFringe spacing
PhysicsOpticsIntro25 minNot startedMastery: New
Refraction / Snell's Law
Watch one light ray cross a boundary, connect refractive index to speed change, and see Snell's law set the refracted angle, bending direction, and critical-angle limit on the same live diagram.
Snell's lawRefractive index
PhysicsOpticsIntermediate30 minNot startedMastery: New
Dispersion / Refractive Index and Color
Use one compact thin-prism bench to see how refractive index can depend on wavelength, why different colors bend by different amounts, and how a bounded prism model separates colors without widening into a full spectroscopy subsystem.
Wave Optics - 4/5
Color-dependent n(lambda)Prism spread
PhysicsOpticsIntermediate25 minNot startedMastery: New
Total Internal Reflection
Push a ray from a higher-index medium toward a lower-index boundary, watch the critical angle emerge, and see the same live diagram hand off from ordinary refraction to full internal reflection.
Critical angleInternal reflection
PhysicsOpticsIntro25 minNot startedMastery: New
Mirrors
Use plane, concave, and convex mirrors to track equal-angle reflection, signed image distance, and magnification on the same live ray diagram.
Equal anglesVirtual vs real
PhysicsOpticsIntro25 minNot startedMastery: New
Lens Imaging
Trace principal rays through converging and diverging lenses, connect the signed thin-lens equation to the diagram, and watch image distance and magnification respond to the same object setup.
Focal lengthImage distance
PhysicsOpticsIntermediate30 minNot startedMastery: New
Optical Resolution / Imaging Limits
Image two nearby point sources through one finite aperture and see why diffraction, wavelength, and aperture diameter limit how sharply an optical system can separate them.
Wave Optics - 5/5
Rayleigh limitAperture versus wavelength
Electromagnetism
5 conceptsPhysicsElectromagnetismIntermediate30 minNot startedMastery: New
Electromagnetic Waves
See how changing electric and magnetic fields travel together as one rightward wave, with the local field pair, source-to-probe delay, and propagation cue all tied to the same compact live stage.
E and B togetherPropagation delay
PhysicsElectromagnetismIntro25 minNot startedMastery: New
Faraday's Law and Lenz's Law
Track one magnet passing one coil and see how changing magnetic flux linkage creates induced emf while Lenz's law fixes the response direction, with the stage, galvanometer, and graphs all driven by the same bounded motion.
Magnetism - 2/3
Changing fluxInduced emf
PhysicsElectromagnetismIntro25 minNot startedMastery: New
Magnetic Fields
See how current direction, wire spacing, distance, and superposition set the magnetic field around one or two long straight wires, with the stage arrows and scan graphs tied to the same live source pattern.
Magnetism - 1/3
Right-hand ruleField patterns
PhysicsElectromagnetismIntro30 minNot startedMastery: New
Magnetic Force on Moving Charges and Currents
Launch one moving charge through a uniform magnetic field, compare it with a same-direction current segment, and connect force direction, curvature, and current-based force on one bounded live stage.
Magnetism - 3/3
qv x B directionCurrent-segment force
PhysicsElectromagnetismIntermediate30 minNot startedMastery: New
Maxwell's Equations Synthesis
See what each Maxwell equation says physically, how sources and circulation differ, and why changing electric and magnetic fields together unify electricity, magnetism, and light.
Source lawsCirculation laws
Modern Physics
5 conceptsPhysicsModern PhysicsIntermediate30 minNot startedMastery: New
Photoelectric Effect
Use one compact lamp-to-metal bench to see why light frequency sets electron emission, why intensity alone fails below threshold, and how stopping potential reads the electron energy honestly.
Modern Physics - 1/5
Threshold frequencyIntensity vs energy
PhysicsModern PhysicsIntermediate30 minNot startedMastery: New
Atomic Spectra
Link discrete emission and absorption lines to allowed energy-level gaps with one compact ladder-and-spectrum bench that keeps transitions, wavelengths, and mode changes tied together.
Modern Physics - 2/5
Emission vs absorptionDiscrete spectral lines
PhysicsModern PhysicsIntermediate30 minNot startedMastery: New
de Broglie Matter Waves
Use one compact matter-wave bench to see how particle momentum sets wavelength, why heavier or faster particles get shorter wavelengths, and how whole-number loop fits form a bounded bridge toward early quantum behavior.
Modern Physics - 3/5
Momentum sets wavelengthMass or speed can shorten lambda
PhysicsModern PhysicsIntermediate30 minNot startedMastery: New
Bohr Model
Use a compact hydrogen bench to connect quantized energy levels, allowed transitions, and named spectral-line series while staying clear that Bohr is a useful historical model rather than the final quantum description.
Modern Physics - 4/5
Hydrogen seriesQuantized levels
PhysicsModern PhysicsIntermediate30 minNot startedMastery: New
Radioactivity and Half-Life
Use one compact decay bench to see why each nucleus decays unpredictably, why large samples still follow a regular half-life curve, and how to read remaining-count graphs honestly.
Modern Physics - 5/5
Single-event chanceHalf-life checkpoints
72 modules
Published now and pulled from the canonical concept catalog.
3 subjects
The library now groups browse paths cleanly across the current physics, math, and chemistry surfaces.
15 topics
Current filters follow the registry order: Oscillations, Resonance, Mechanics, Fluids, Thermodynamics, Electricity, Optics, Electromagnetism, Modern Physics, Functions, Calculus, Vectors, Complex Numbers and Parametric Motion, Rates and Equilibrium, Solutions and pH.
17 starter tracks
Curated from the same canonical catalog so the library has guided entry points.
Next step
Open the first concept fast
Use one strong concept page first, then widen out from read-next, topic cues, and local progress.
Open SHMGuided path
Gravity and Orbits
5 connected concepts when you want sequence instead of a cold library scan.
Start Gravity and OrbitsChallenge path
Use tasks when the next move should be more specific.
The challenge hub surfaces existing authored challenges by topic, concept, and starter-track path without introducing a separate curriculum layer.
Open challenge hubContinue learning
Pick up the concept you were working through last.
Local-first progress.
No local progress yet. Open a concept, try the simulation, and Open Model Lab will remember your progress on this browser first, then let you sign in later if you want sync.
Start a conceptReview queue
Revisit the concepts that need the clearest next pass.
These cues stay transparent on purpose. They reuse saved quick-test misses, unfinished challenge work, ready checkpoints, entry diagnostics, mastery signals, elapsed time, and starter-track recap context instead of introducing a separate scheduler.
Local-first review cues.
The review queue appears after you work through a concept. Open a concept, use the lab, and finish a quick test or challenge to seed the first revisit cues.
Guided collections
Use lesson sets when the next move should combine tracks, concepts, and challenge entry points.
3 compact collections already reuse the same canonical pages and progress seams. They stay small on purpose so the library does not turn into a second curriculum system.
Lesson set4 steps9 concepts64 min
Waves Evidence Loop
Use one topic route, one starter track, and one focused challenge so the wave story stays bounded for a teacher-led lesson block.
Collection shape
Reuses 1 starter track, 1 challenge step, and 2 supporting surfaces without creating a second curriculum system.
Topic orientationWave starter track
Lesson set6 steps6 concepts103 min
Electricity Bridge Lesson Set
Move from field cause to voltage to the first full electricity track without leaving the current concept, topic, and challenge surfaces.
Collection shape
Reuses 1 starter track, 1 challenge step, and 2 supporting surfaces without creating a second curriculum system.
Field causeVoltage bridge
Playlist5 steps11 concepts74 min
Electricity to Magnetism Bridge
Use the existing electricity recap, magnetic starter track, and Maxwell capstone surfaces to move into electromagnetism without turning the branch into a full LMS sequence.
Collection shape
Reuses 1 starter track, 1 challenge step, and 2 supporting surfaces without creating a second curriculum system.
Electricity recapMagnetic starter track
Topic routes
Use topic landing pages when you want the library to feel more situated.
Topic pages stay tied to canonical metadata, starter-track recommendations, and local progress cues, but they give learners a stronger sense of where they are before opening a specific concept.
TopicPhysics12 concepts310 min3 starter tracks
Oscillations and Waves
Follow repeating motion from one oscillator into traveling waves, sound as a longitudinal wave, pitch-versus-loudness cues, beats from nearby frequencies, Doppler shifts from motion, superposition, standing patterns, and driven resonance.
FoundationsEnergy in SHM
Best first concepts
TopicPhysics15 concepts400 min3 starter tracks
Mechanics
Use vectors, balance and rotational cause, angular momentum, trajectories, gravity fields and potential, circular orbits, orbital periods, escape thresholds, impulse, conservation, and collisions to read motion and interactions on the same simulation-first surface.
Vector foundationsTwo-dimensional motion
Best first concepts
TopicPhysics5 concepts145 min1 starter track
Fluids
Start with pressure as force per area, then keep the fluids story coherent through hydrostatic pressure, steady-flow continuity, Bernoulli's speed-pressure-height trade, buoyancy from displaced fluid, and resistive drag that settles into terminal speed.
Pressure and fluid staticsSteady flow and continuity
Best first concepts
TopicPhysics4 concepts125 min1 starter track
Thermodynamics
Separate temperature from total internal energy, bridge that microscopic story into gas pressure and the ideal-gas law, then follow how thermal energy crosses boundaries and shapes honest heating curves on one compact thermal branch.
Thermal foundationsGas-state bridge
Best first concepts
TopicPhysics6 concepts160 min1 starter track
Electricity
Move from source charges and voltage into simple loops, power, branch behavior, and equivalent resistance without leaving the same compact electricity path.
Field and forcePotential and voltage
TopicPhysics5 concepts140 min2 starter tracks
Electromagnetism
Use current-made magnetic fields, changing flux, Maxwell's four-law synthesis, magnetic force, and field-pair propagation without turning the branch into a detached rule list.
Fields around currentFlux and induced emf
Best first concepts
TopicPhysics10 concepts270 min1 starter track
Optics
Use one bounded optics path to move from light's wave identity into polarization, diffraction, double-slit interference, refraction, prism dispersion, critical angles, mirrors, thin-lens image formation, and the diffraction limits that cap real resolution.
Wave view of lightWave orientation and filters
Best first concepts
TopicPhysics5 concepts150 min1 starter track
Modern Physics
Keep the modern-physics branch bounded with the photoelectric effect, atomic spectra, de Broglie matter waves, the Bohr model, and radioactivity / half-life so threshold emission, discrete lines, matter wavelength, quantized hydrogen levels, and probabilistic nuclear decay all stay tied to compact, visually honest benches instead of detached historical anecdotes.
Light and matterQuantized line spectra
Best first concepts
TopicMath1 concepts20 min1 starter track
Functions
Use one parent-curve bench to read shifts, reflections, and vertical scale as visible moves on the graph before the math path widens into local and accumulated change.
Parent-function moves
Best first concepts
TopicMath2 concepts50 min1 starter track
Calculus
Start from slope on the graph itself, then widen into signed area and accumulation so rate and total change stay connected on one visual branch.
Tangent and local changeAccumulation and area
Best first concepts
TopicMath1 concepts25 min1 starter track
Vectors
Use one 2D plane to read vectors as both arrows and ordered pairs, then bridge that same language into motion without building a separate math system.
Combination and scaling
Best first concepts
TopicMath2 concepts50 min1 starter track
Complex Numbers and Parametric Motion
Use one bounded math branch where the complex plane, geometric multiplication, and motion traced from equations all stay tied to the same coordinate language.
Complex plane geometryPlane motion from equations
Best first concepts
TopicChemistry2 concepts50 min1 starter track
Rates and Equilibrium
Use one compact chemistry branch where collision success explains reaction rate first, then the same particle language widens into reversible change and a new equilibrium mix.
Collision theoryEquilibrium shifts
Best first concepts
TopicChemistry2 concepts46 min1 starter track
Solutions and pH
Use one compact chemistry branch where concentration, dilution, acid-base balance, and pH all stay attached to the same bounded solution story.
How crowded the solution isAcid-base balance
Best first concepts
Starter tracks
Use a starter path when you want the expanded concept set to feel ordered.
These tracks still point back into the same reusable concept pages and shared progress seams. The redesign just keeps them compact and close to the library instead of feeling like a separate destination.
Starter track3 concepts75 min2 checkpoints
Motion and Circular Motion
Not startedStart with vector components, move into projectile paths, and then use circular motion to understand how velocity can keep changing direction.
ComponentsTrajectories
Track progress
0 / 5 moments complete
0 / 3 concepts and 0 / 2 checkpoints cleared.
1Vectors and Components
Start here2Projectile Motion
Ahead1 more steps in the full track
Vectors and Components opens this track and sets up the rest of the path.
Starter track5 concepts130 min3 checkpoints
Rotational Mechanics
Not startedStart with torque as the turning effect of force, use centre of mass and support region for static balance, then carry the same rotational language into moment of inertia, rolling motion, and angular momentum.
Torque and lever armsCentre of mass
Track progress
0 / 8 moments complete
0 / 5 concepts and 0 / 3 checkpoints cleared.
1Torque
Start here2Static Equilibrium / Centre of Mass
Ahead3 more steps in the full track
Torque opens this track and sets up the rest of the path.
Starter track5 concepts135 min3 checkpoints
Gravity and Orbits
Not startedStart with one source mass creating a field and potential well, then use that same gravity model to explain circular speed, orbital periods, and the escape threshold.
Inverse-square fieldPotential well
Track progress
0 / 8 moments complete
0 / 5 concepts and 0 / 3 checkpoints cleared.
1Gravitational Fields
Start here2Gravitational Potential and Potential Energy
Ahead3 more steps in the full track
Gravitational Fields opens this track and sets up the rest of the path.
Starter track3 concepts80 min2 checkpoints
Oscillations and Energy
Not startedBuild from one clean oscillator to energy exchange and then to driven resonance, so the same system grows without changing its core ideas.
Restoring forceEnergy exchange
Track progress
0 / 5 moments complete
0 / 3 concepts and 0 / 2 checkpoints cleared.
1Simple Harmonic Motion
Start here2Oscillation Energy
Ahead1 more steps in the full track
Simple Harmonic Motion opens this track and sets up the rest of the path.
Starter track5 concepts145 min3 checkpoints
Fluid and Pressure
Not startedStart with pressure in a resting fluid, then carry that same branch through continuity, Bernoulli, buoyancy, and drag-limited motion.
Pressure in fluidsContinuity and flow
Track progress
0 / 8 moments complete
0 / 5 concepts and 0 / 3 checkpoints cleared.
1Pressure and Hydrostatic Pressure
Start here2Continuity Equation
Ahead3 more steps in the full track
Pressure and Hydrostatic Pressure opens this track and sets up the rest of the path.
Starter track9 concepts230 min2 checkpoints
Waves
Not startedUse oscillation as the entry point, lock down wave speed and wavelength, carry that into longitudinal sound and pitch-versus-loudness cues, add beats as the nearby-frequency superposition bridge, then move into Doppler shifts, interference, standing-wave patterns, and open-vs-closed air-column resonance without losing the live connection between motion and graph.
Oscillation linkSpeed and wavelength
Track progress
0 / 11 moments complete
0 / 9 concepts and 0 / 2 checkpoints cleared.
1Simple Harmonic Motion
Start here2Wave Speed and Wavelength
Ahead7 more steps in the full track
Simple Harmonic Motion opens this track and sets up the rest of the path.
Starter track4 concepts125 min3 checkpoints
Thermodynamics and Kinetic Theory
Not startedStart with temperature-versus-internal-energy bookkeeping, reuse that particle story for gas pressure, then follow energy transfer into heating curves and phase-change shelves.
Temperature vs UGas pressure from particles
Track progress
0 / 7 moments complete
0 / 4 concepts and 0 / 3 checkpoints cleared.
1Temperature and Internal Energy
Start here2Ideal Gas Law and Kinetic Theory
Ahead2 more steps in the full track
Temperature and Internal Energy opens this track and sets up the rest of the path.
Starter track6 concepts160 min2 checkpoints
Electricity
Not startedStart with source charges and voltage, then carry that same circuit story into current, power, branch behavior, and equivalent resistance.
Field causeVoltage bridge
Track progress
0 / 8 moments complete
0 / 6 concepts and 0 / 2 checkpoints cleared.
1Electric Fields
Start here2Electric Potential
Ahead4 more steps in the full track
Electric Fields opens this track and sets up the rest of the path.
Starter track3 concepts80 min3 checkpoints
Magnetism
Not startedStart with current-made magnetic fields, turn changing flux into induced emf with Faraday and Lenz, and then reuse that same field direction story to explain magnetic force on charges and currents.
B-field patternsFaraday / Lenz
Track progress
0 / 6 moments complete
0 / 3 concepts and 0 / 3 checkpoints cleared.
1Magnetic Fields
Start here2Faraday's Law and Lenz's Law
Ahead1 more steps in the full track
Magnetic Fields opens this track and sets up the rest of the path.
Starter track5 concepts120 min3 checkpoints
Sound and Acoustics
Not startedStay on the sound branch long enough that longitudinal motion, pitch-versus-loudness cues, beats, Doppler shifts, and open-vs-closed air-column resonance feel like one acoustics path instead of isolated pages.
Longitudinal soundPitch vs loudness
Track progress
0 / 8 moments complete
0 / 5 concepts and 0 / 3 checkpoints cleared.
1Sound Waves and Longitudinal Motion
Start here2Pitch, Frequency, and Loudness / Intensity
Ahead3 more steps in the full track
Sound Waves and Longitudinal Motion opens this track and sets up the rest of the path.
Starter track5 concepts145 min3 checkpoints
Wave Optics
Not startedFollow the bounded wave-optics branch from polarization into diffraction, double-slit interference, color-dependent refraction, and imaging limits so the newer optics pages read like one compact path instead of isolated stops.
Wave orientationSingle-slit spread
Track progress
0 / 8 moments complete
0 / 5 concepts and 0 / 3 checkpoints cleared.
1Polarization
Start here2Diffraction
Ahead3 more steps in the full track
Polarization opens this track and sets up the rest of the path.
Starter track5 concepts150 min3 checkpoints
Modern Physics
Not startedFollow the bounded modern-physics branch from threshold emission into line spectra, matter waves, the Bohr hydrogen model, and half-life so the new concept set reads like one path instead of five isolated pages.
Threshold frequencyDiscrete spectral lines
Track progress
0 / 8 moments complete
0 / 5 concepts and 0 / 3 checkpoints cleared.
1Photoelectric Effect
Start here2Atomic Spectra
Ahead3 more steps in the full track
Photoelectric Effect opens this track and sets up the rest of the path.
Starter track3 concepts70 min2 checkpoints
Functions and Change
Not startedKeep the first math path compact: read parent-curve moves first, then local slope, and then accumulation so change stays graph-first all the way through.
Parent-curve movesShifts and reflections
Track progress
0 / 5 moments complete
0 / 3 concepts and 0 / 2 checkpoints cleared.
1Graph Transformations
Start here2Derivative as Slope / Local Rate of Change
Ahead1 more steps in the full track
Graph Transformations opens this track and sets up the rest of the path.
Starter track2 concepts50 min2 checkpoints
Complex and Parametric Motion
Not startedStart with complex numbers as points on one plane, then carry that same coordinate language into motion traced from x(t) and y(t).
Complex points on a planeMagnitude and argument
Track progress
0 / 4 moments complete
0 / 2 concepts and 0 / 2 checkpoints cleared.
1Complex Numbers on the Plane
Start here2Parametric Curves / Motion from Equations
AheadComplex Numbers on the Plane opens this track and sets up the rest of the path.
Starter track2 concepts50 min2 checkpoints
Vectors and Motion Bridge
Not startedStart with vectors as geometric objects on a 2D plane, then carry the same component language into the existing motion-facing vectors bench.
Magnitude and directionAddition and subtraction
Track progress
0 / 4 moments complete
0 / 2 concepts and 0 / 2 checkpoints cleared.
1Vectors in 2D
Start here2Vectors and Components
AheadVectors in 2D opens this track and sets up the rest of the path.
Starter track2 concepts50 min2 checkpoints
Rates and Equilibrium
Not startedStart with successful collisions setting reaction rate, then reuse the same chemistry language inside a reversible system that re-balances after a disturbance.
Successful collisionsTemperature vs concentration
Track progress
0 / 4 moments complete
0 / 2 concepts and 0 / 2 checkpoints cleared.
1Reaction Rate / Collision Theory
Start here2Dynamic Equilibrium / Le Chatelier's Principle
AheadReaction Rate / Collision Theory opens this track and sets up the rest of the path.
Starter track2 concepts46 min2 checkpoints
Solutions and pH
Not startedStart with concentration and dilution in one beaker, then reuse that same solution language to read acid-base balance and pH.
Amount in volumeDilution without losing solute
Track progress
0 / 4 moments complete
0 / 2 concepts and 0 / 2 checkpoints cleared.
1Concentration and Dilution
Start here2Acid-Base / pH Intuition
AheadConcentration and Dilution opens this track and sets up the rest of the path.