Biology Virtual Labs
31 interactive experiments aligned with curriculum standards.
AP Biology
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Cell Structure 3D
Interactive 3D exploration of eukaryotic cell organelles and their functions
~30 min
Electron Transport Chain & Chemiosmosis
Model Complexes I-IV, ATP synthase, proton motive force, and ETC inhibitor effects
~25 min
Cellular Respiration & ATP Synthesis
How cells harvest energy from glucose
~20 min
DNA Double Helix & Base Pairing
The molecule that carries life's blueprint
~15 min
DNA Replication (Detailed)
Helicase, primase, DNA polymerase, and leading/lagging strand synthesis
~25 min
Ecological Succession
Primary and secondary succession: from bare rock to climax community
~20 minElementary (K-5)
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Animal Adaptations
Discover how animals survive with camouflage, mimicry, and body structures
~10 min
Food Chains & Ecosystems
Producers, consumers, decomposers — energy flows through life
~12 min
Animal Habitats
Ecosystems, adaptations, and where animals live
~10 min
Plant Life Cycle
From seed to flower: watch plants grow through every stage
~10 min
What Plants Need
Light, water, soil nutrients, and air for plant growth
~10 minNGSS Middle School
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Cell Division Comparison
Compare mitosis and meiosis side by side
~15 min
Ecosystems & Food Webs
Energy flow, matter cycling, and ecosystem balance
~15 min
Food Web Dynamics
Explore energy flow and trophic levels in an ecosystem
~15 min
Genetics: Punnett Square
Mendelian inheritance, genotypes, and phenotype ratios
~15 min
Genetics & DNA
Population genetics, allele frequencies, and Hardy-Weinberg equilibrium
~14 min
Photosynthesis & Cellular Respiration
How living things make and use energy
~14 minFrequently asked questions
Which AP Biology topics are covered?
Cellular respiration, photosynthesis, mitosis, meiosis, DNA structure, protein synthesis, enzyme kinetics, neuron action potentials, membrane transport, natural selection — the AP Biology Big Ideas in interactive 3D.
Are middle school NGSS biology topics covered?
Yes. Ecosystems, food webs, genetics, photosynthesis-respiration, and cell structure are tagged to MS-LS performance expectations so teachers can drop them into existing units.
How accurate are the 3D models?
Models use real molecular geometry where it matters: DNA's 10 base pairs per turn, the right number of ribosomal subunits, accurate enzyme-substrate fit. Students can rotate and inspect from any angle.
Can students do dissection-style exploration without dissection?
Yes. Cell structure and DNA Double Helix labs let students click into organelles or zoom into base pairs, replicating the exploration goals of dissection-style activities.