Students will use key features (such as cell type, DNA, and structural similarities) to classify organisms into modern domains . They will also create and read model representations of classification to organize and demonstrate their understanding of evolutionary history. This module was developed by Liz Ashby as part of a Virginia Commonwealth University STEM initiative sponsored by the Virginia Department of Education.

In this unit, students will be given a chance to study and view different types of cells, compare and contrast the features of the major cell types, learn about the function of specialization and differentiation in multicellular organisms, and review/learn the major organelles that will become the foundation of later units.This module was developed by Liz Ashby as part of a Virginia Commonwealth University STEM initiative sponsored by the Virginia Department of Education.

This activity is designed to teach students how cladistics can be used as a tool to analyze evolutionary change and relationships among organisms. Sheets contained here should be copied and then modified as the instructor sees fit. Fasteners, rather than fossils, are used as the specimens. 

In this unit, students will study the evolution of whales from four-limbed, land dwelling, mammalian ancestors to modern, two-finned, aquatic mammals through a virtual or in-class simulation lab. This activity will teach them more about how fossils, homologous structures, and DNA analysis provide evidence for macroevolution, evolutionary theory, and modern classification. This module was developed by Liz Ashby as part of a Virginia Commonwealth University STEM initiative sponsored by the Virginia Department of Education.

In the engage section of the 5Elesson, students are introduced to the role of fossils as evidence of evolution and evolutionary relationships by watching a videos about the discovery of Lucy and Ardi and consider what type of information that they can gain from skull fossils. Students will then explore features of skulls from human ancestors and the modern day Homo sapien. After measuring skull to cheekbone ratios, students will create a graph to compare various species. Several interactives are provided to explain fossils, skeletal evidence for human evolution, and phylogenetic trees. Then, students will apply their skills of analyzing data about anatomical similarities and genetic information to depict evolutionary relationships between organisms using cladograms. To evaluate student understanding, students will complete an evolutionary relationships CER.