Georgian (Georgian)
Simulations not yet translated into Georgian
- Acid-Base Solutions (HTML5)
- Area Builder (HTML5)
- Arithmetic (HTML5)
- Balancing Act (HTML5)
- Balancing Act
- Balancing Chemical Equations (HTML5)
- Balloons and Static Electricity (HTML5)
- Band Structure
- Beer's Law Lab (HTML5)
- Bending Light (HTML5)
- Blackbody Spectrum
- Build a Fraction
- Build a Molecule
- Build an Atom (HTML5)
- Calculus Grapher
- Collision Lab
- Color Vision (HTML5)
- Concentration (HTML5)
- Double Wells and Covalent Bonds
- Energy Forms and Changes
- Energy Skate Park
- Energy Skate Park: Basics (HTML5)
- Energy Skate Park: Basics
- Estimation
- Faraday's Law (HTML5)
- Fluid Pressure and Flow
- Forces and Motion
- Forces and Motion: Basics (HTML5)
- Forces and Motion: Basics
- Forces in 1 Dimension
- Fourier: Making Waves
- Fraction Matcher (HTML5)
- Fraction Matcher
- Fractions Intro
- Friction (HTML5)
- Friction
- Gene Expression - The Basics
- Gene Machine: The Lac Operon
- Glaciers
- Graphing Lines (HTML5)
- Graphing Lines
- Gravity Force Lab (HTML5)
- The Greenhouse Effect
- Hooke's Law (HTML5)
- John Travoltage (HTML5)
- John Travoltage
- Ladybug Motion 2D
- Ladybug Revolution
- Least-Squares Regression (HTML5)
- Lunar Lander
- Maze Game
- Models of the Hydrogen Atom
- Molarity (HTML5)
- Molecule Polarity
- Molecules and Light (HTML5)
- Molecule Shapes (HTML5)
- Molecule Shapes
- Molecule Shapes: Basics (HTML5)
- Molecule Shapes: Basics
- Motion in 2D
- The Moving Man
- Neuron (HTML5)
- Normal Modes
- Ohm's Law (HTML5)
- pH Scale (HTML5)
- pH Scale: Basics (HTML5)
- Plate Tectonics
- Plinko Probability
- Quantum Bound States
- Quantum Tunneling and Wave Packets
- Radiating Charge
- Ramp: Forces and Motion
- Reactants, Products and Leftovers (HTML5)
- Resistance in a Wire (HTML5)
- Resonance
- Rutherford Scattering
- Self-Driven Particle Model
- Simplified MRI
- Stern-Gerlach Experiment
- Torque
- Trig Tour (HTML5)
- Under Pressure (HTML5)
- Under Pressure
- Vector Addition
- Wave on a String (HTML5)
The remaining simulations can be translated using the PhET Translation Utility.