28 standards-aligned learning plans ready to launch in the Simulation Builder. Each plan pre-configures template, dimensions, objectives, and time.
Students adjust mass, angle, and friction on an inclined plane. Predict net force and acceleration before testing. Build free-body diagrams for each trial.
Launch projectiles at varying angles and velocities. Measure range, max height, and hang time. Derive the relationship between launch angle and range.
Generate two wave sources and observe constructive and destructive interference patterns. Adjust frequency, amplitude, and phase difference.
Build circuits with batteries, resistors, switches, and light bulbs. Predict current and voltage at each node using Ohm's Law. Compare series vs parallel behavior.
Design a roller coaster track and observe kinetic/potential energy transformations. Add friction to see where energy is 'lost'. Calculate speeds at each point.
Manipulate pressure, volume, temperature, and particle count in a virtual gas chamber. Discover Boyle's, Charles's, and Gay-Lussac's laws through guided inquiry.
Run 50 generations of beetle populations with varying traits. Adjust predator pressure, food scarcity, and environmental color. Track allele frequency over time.
Expose virtual spinach leaf discs to varying light intensity, temperature, and CO2 levels. Measure oxygen production rate. Students design their own controlled experiment.
Control solute concentrations on both sides of a membrane. Observe osmosis, facilitated diffusion, and active transport in real-time with molecular visualization.
Build a food web with producers, consumers, and decomposers. Remove species and observe cascading effects on population sizes. Introduce invasive species.
Guide helicase, primase, and DNA polymerase through replication. Transcribe DNA to mRNA, then translate to amino acid sequences. Introduce mutations and observe effects.
Start by 'making sandwiches' to learn limiting reagents, then balance real chemical equations. Classify reactions as synthesis, decomposition, single/double replacement.
Explore atomic radius, ionization energy, electronegativity, and electron affinity across the periodic table. Predict properties of unknown elements from their position.
Perform virtual titrations with pH indicator. Add base drop-by-drop to acid, record pH at each step. Identify the equivalence point and calculate unknown concentrations.
Move tectonic plates and observe earthquakes, volcanoes, and mountain formation. Reconstruct Pangaea by matching fossil evidence and coastline shapes.
Collect 30 days of simulated weather data across 3 biomes. Distinguish daily weather variability from long-term climate patterns. Build climate graphs.
Follow a water molecule through evaporation, condensation, precipitation, and collection. Make decisions at each phase transition. Track energy inputs and outputs.
Plot stars on the Hertzsprung-Russell diagram. Trace stellar evolution from nebula through main sequence to red giant/white dwarf or supernova/neutron star.
Roll dice, flip coins, draw cards — record results and build frequency tables. Compare experimental results to theoretical probability over 10, 100, and 1000 trials.
Adjust slope and y-intercept with sliders to see the graph update live. Match equations to real-world scenarios. Compare proportional vs non-proportional relationships.
Drag-and-drop statements and reasons to construct two-column proofs. Visual highlighting shows which angles and segments each step references.
Graph parent functions (linear, quadratic, absolute value, square root, exponential). Apply translations, reflections, stretches, and compressions with sliders.
Manipulate squares on the sides of right triangles to discover the Pythagorean relationship visually. Apply it to find missing sides and real-world distances.
Build persuasive arguments by selecting a claim, gathering evidence cards, and constructing reasoning chains. AI evaluator scores logical coherence and evidence quality.
Analyze historical documents, photographs, and artifacts. Identify point of view, bias, and context. Corroborate evidence across multiple sources to form interpretations.
Practice structured debate format against AI opponents. Build constructive cases, cross-examine, and deliver rebuttals. Scored on logic, evidence, and delivery.
Design bridges with material and budget constraints. Test load-bearing capacity and identify structural failure points. Iterate through design-test-improve cycles.
Run a virtual marketplace. Set prices, observe consumer behavior, discover equilibrium. Introduce supply shocks, taxes, and subsidies to see market responses.