In this experiment, students investigate methods for altering the functioning of an enzyme catalyst.
http://www.woodrow.org/teachers/chemistry/institutes/1986/exp22.html
The objective of this experiment is to explore the change in physical properties of a polymer as a result of cross-linking. The result of adding more cross-linking agents to a polymer is considered and another model of cross-linking is viewed.
http://matse1.mse.uiuc.edu/~tw/polymers/e.html
The objective of this lab is to introduce the concepts and vocabulary of "polymers" with simple models.
http://matse1.mse.uiuc.edu/~tw/polymers/d.html
To determine the rate law for a chemical reaction.
http://chem.lapeer.org/Chem2Docs/Rate.Eq.html
By making measurements on a sample of carbon dioxide, students are able to determine the molar volume of CO2.
http://www.woodrow.org/teachers/chemistry/institutes/1986/exp5.html
Using readily available materials, students separate a colorless liquid from a common colored solution by distillation.
http://www.woodrow.org/teachers/chemistry/institutes/1986/exp2.html
The objective of this demonstration is to illustrate the effect of increasing surface area upon the rate of reaction in a heterogeneous system.
http://www.woodrow.org/teachers/chemistry/institutes/1986/exp18.html
A water solution is electrolysed using a 9V battery. Electrode phenomena can be observed. The kinetic of the reactions can be changed. Such electrolysis give rise to many industrial applications
http://www.kyantec.com/Tips/electrolysis.htm
These two experiments or demonstrations allow a detailed study of the electrolysis of water without the use of the traditional Hoffman apparatus
http://www.woodrow.org/teachers/chemistry/institutes/1986/exp27.html
To determine the activation energy of a chemical reaction
http://chem.lapeer.org/Chem2Docs/Ea.html