To study a model analogous to atomic isotopes or closely related elements
http://129.93.84.115/Chemistry/DoChem/DoChem022.html
The experiment will explore whether matter is created or destroyed during a chemical reaction
http://www2.ncsu.edu/ncsu/pams/science_house/learn/CountertopChem/exp3.html
To demonstrate some consequences of a limiting reagent.
http://129.93.84.115/Chemistry/DoChem/DoChem024.html
To demonstrate a distinction between mass and weight.
http://129.93.84.115/Chemistry/DoChem/DoChem014.html
To determine the density of a cylindrical solid.
http://129.93.84.115/Chemistry/DoChem/DoChem011.html
To gain familiarity with the geometry of metallic and ionic crystal structures
http://www.okstate.edu/jgelder/bondpage14.html
This experiment demonstrates reactions that occur between two aqueous solutions. The driving force for the reaction is the formation of an insoluble product
http://www2.ncsu.edu/ncsu/pams/science_house/learn/CountertopChem/exp11.html
Many types of chemical reactions produce gaseous substances. These types of reactions may be classified as single displacement or double displacement reactions
http://www2.ncsu.edu/ncsu/pams/science_house/learn/CountertopChem/exp12.html
This procedure will allow the student to develop a basic activity series through an exploration of single replacement reactions.
http://www2.ncsu.edu/ncsu/pams/science_house/learn/CountertopChem/exp10.html
To become familiar with Avogadro's number and the quantity of material represented by it.
http://chem.lapeer.org/Chem1Docs/MolDayCeleb.html