Position positive and negative charges to help an electron move through a maze to hit a target.

Create a wavelength using periodic motion.

Adjust the temperature in this simulation to observe the effects to moving particles. Graphs can be created from collected data.

View this simulation to see different phases formed by elliptical particles.

View this simulation to see how lattice structures are formed when particles of different shapes and charges form bonds.

View this simulation to observe the docking process for a substrate and an enzyme.

View the differences in intermolecular interactions between linear and branched polymers.

Wath an animation that shows how enzymes break down glycogen into glucose subunits.

Watch a protein being made using genetic information decoded from a messenger RNA.

This simulation shows how a nanotube may possibly be absorbed onto a gold surface.

Observe the reaction when a buckyball collides with a neon crystal.

View this simulation to observe how larger particles can be separated from smaller particles through vibration.

Adjust the peeling force in this simulation to see how the van der Waals bonds break while peeling a piece of duct tape off of a surface.

Cut various sections of a substance in this simulation to observe how the substance will crack and fracture at a molecular level.

View two different substances made from the same two elements. Observe the different strengths of bonds between the two different substances.

View this simulation to observe how water molecules move through carbon nanotubes.

Experiment with gravity as a variable to observe the effects of gravity on an object rolling down an inclined surface.

Adjust variables to see how a ball is affected by gravity while traveling around a circle.

Adjust the distance between plates in a parallel-plate capacitor in this simulation, and observe the effects on the electric field.

Learn more about fluid mechanics and dynamics concepts through these animations.

Students can use these simulations to understand concepts in electromagnetism. Simulations are available on the following concepts: Lorentz Force, The Hall Effect, capacitor, conductor, transistor, cyclotron, static electricity....

A collection of simulations to show the important topics of quantum physics.

Simulations of common biotechnology techniques performed in a laboratory setting. Learn how to complete these techniques and what task they are used for in the lab.

A collection of simulations on nano materials, nano applications, and machinery at the nano level. Students can learn about carbon nanotubes, material strength, a conveyor belt made on the nanoscale, and sputttering.