Concord Consortium
Concord Consortium: Molecular Workbench: Loschmidt's Paradox
Use this simulation to observe how Loschmidt's Paradox affects the entropy of an isolated system.
Concord Consortium
Concord Consortium: Molecular Workbench: Barometric Formula
Adjust the altitude and temperature in this simulation to observe how gas pressure is affected by these changes.
Concord Consortium
Concord Consortium: Molecular Workbench: States of Matter
Change variables in this simulation to see how compression affects different states of matter.
Concord Consortium
Concord Consortium: Molecular Workbench: Stereochemistry of Ethane
View a 3D molecular model of ethane and see how changing temperature affects its movement.
Concord Consortium
Concord Consortium: Molecular Workbench: Molecular Crystals
A collection of interactive simulations relating to molecular crystals.
Concord Consortium
Concord Consortium: Molecular Workbench: Atomic Orbitals
View the approximate locations of electrons in valence shells 1s through 4f.
Concord Consortium
Concord Consortium: Molecular Workbench: Molecular Orbitals of Benzene
Adjust variables to see numerous configurations of the electron orbitals of Benzene.
Concord Consortium
Concord Consortium: Molecular Workbench: Dissolving Salt in Water
View this simulation to see salt dissolve in water at the molecular level.
Concord Consortium
Concord Consortium: Molecular Workbench: Water and Polar Substances
Adjust amounts of ionic charges in this simulation to see how water molecules react to polar substances in solution.
Concord Consortium
Concord Consortium: Molecular Workbench: Collision Theory of Chemical Reactions
Watch an animation of atoms and molecules colliding that shows how these particles combine during chemical reactions. Change levels of energy to see how reactions are affected.
Concord Consortium
Concord Consortium: Molecular Workbench: How Chemical Reactions Happen
View this collection of simulations to gain a better understanding of how chemical reactions happen.
Concord Consortium
The Concord Consortium: Molecular Workbench: Seeing Chemical Equilibrium
Observe a visual representation of the equilibrium of products and reactants in chemical reactions. Record data while the reactions are taking place and print out a report afterwards.
Concord Consortium
The Concord Consortium: Molecular Workbench: Explosions
Observe an explosion on a molecular level. Understand how explosions can do work.
Concord Consortium
The Concord Consortium: Molecular Workbench: Catalyzed Reactions
Explore the purpose of catalysts in chemical reactions and how they affect the reaction pathways.
Concord Consortium
Concord Consortium: Molecular Workbench: Osmotic Pressure
View this simulation to observe the process of smaller particles moving through a semipermeable membrane. Temperature is adjustable. [Must download the simulation to engage in the activity]
Concord Consortium
Concord Consortium: Molecular Workbench: Modeling Dna Hybridization
View this simulation of DNA Hybridization.
Concord Consortium
Concord Consortium: Molecular Workbench: Experiment on Material Strength
Adjust the strength of interatomic interactions in this virtual bullet experiment. Observe how the adjustments in strength affect the material in the experiment.
Concord Consortium
Concord Consortium: Molecular Workbench: Shock Wave Propagation
Adjust variables in this shock wave propagation simulation. Observe the density and pressure waves.
Concord Consortium
Concord Consortium: Molecular Workbench: Sputtering
Adjust the incident ion variables in this simulation to observe the sputter yield from the target.
Concord Consortium
Concord Consortium: Molecular Workbench: Neon Diffusion in Nanotube
Observe the movement of neon atoms in a quadruple nanotube joint.
Concord Consortium
Concord Consortium: Molecular Workbench: Nano Differential Gears
View a hypothetical model of gears created be intermolecular interactions.
Concord Consortium
Concord Consortium: Molecular Workbench: Hypothetical Nanoscale Machine
Observe the intermolecular interactions of a hypothetical multi-gear nanoscale machine.
Concord Consortium
Concord Consortium: Molecular Workbench: Molecular Sorter
Observe the sorting process of a hypothetical nano purification machine.
Concord Consortium
Concord Consortium: Molecular Workbench: Sorting Molecules With a Nano Conveyor
Observe how molecules can be sorted in a hypothetical nano conveyor-belt mechanism.