Explore the effect of an electric field on the electron distribution of an atom.
Manipulate the location and magnitude of charges to get a positively charged particle to hit a target.
This activity presents the user with a simulated circuit consisting of four resistors in series with a DC voltage source. Three of the resistors are accessible to, and can be…
Students explore two real-life scenarios that involve solving systems of equations. The first situation involves mixing chemicals to create a new solution while the second situation involves cost and revenue…
…how to best bring science practices into school. The goal is to help you understand how real science works and become more proficient at designing and running your own experiments….
…use cartoon representations to build “protein complexes” in a model and test the effects of shape and temperature on the strength of the fit. Students review polar and non-polar molecules…
…simulates a jumper and parachute system. Will real-world results confirm the mathematical model? This hands-on activity requires a motion sensor and the free SensorConnector app. (InquirySpace Activity 5 of 7.)…
In this activity, students review inheritance with variation. A Virtual Field model has light levels that vary smoothly from top to bottom. A single type of seed grows best in…
Map the probable locations of electrons around a nucleus to understand probability distributions and the electron cloud model.