Available Lessons

Geometry Around Your School

Grade: 4
Mathematics

Teacher will read aloud "The Greedy Triangle" by Marilyn Burns. After read aloud the class will create a list of the geometric shapes from the story. Students will add geometric shapes to the list that were not included in the book (e.g., three dimensional objects). Then students will work with a partner to walk around the school campus to find real-life examples of their assigned geometric shape and take digital photographs of the objects. Students will create a class book about the objects and use their digital photographs to illustrate the book.

Rock Cycle

Grade: 4
Science

This is a review lesson on the three different types of rocks. (Metamorphic, Sedimentary, Igneous) Students will compare/contrast two of the three rocks using a Venn Diagram, and answer questions about erosion and weathering.

Understanding Conservation of Mass in Chemical Reactions

Grade: 11
Science

Often students cannot understand from chemical formulas how atoms exist in compounds, and how they are rearranged during reaction. Furthermore, the concept of balancing reactions eludes them when they cannot actually see the individual atoms. To illustrate a reaction for them, They are split into groups and given "bingo" type chips of different colors. They then put them into groups as reactants, representing the compounds that enter the reaction. They will then break the bonds of the reactants and attempt to rebond them as products. In most reactions, they will see that without balancing they do not have enough "chips" to complete the reaction. However, if they add more of one or more of the reactants, they can then complete the reaction because they now have enough "chips". They will then transfer findings to a sheet, written as a balanced formula equation.

Understanding the Law of Conservation of Mass

Grade: 11
Science

Using the COW, students will use either the program FRAMES or the flip camera and movie maker (their choice) to animate a chemical reaction in order to illustrate that all atoms involved are present at the beginning and end of the reaction, and that matter is neither created or destroyed.