An exploration of the rock cycle's dynamic processes, from the fiery birth of igneous rocks to the transformative heat and pressure of metamorphism. Students will learn how Earth constantly recycles its crust through physical and chemical changes.

Students identify various landforms and apply their knowledge of geological processes to design their own island ecosystem in a culminating project.

A deep dive into the forces of weathering and erosion using mechanical simulations to observe how rocks break down and move over time.

Students explore the three main types of rocks and the processes that transform them through a hands-on simulation using crayons to represent the rock cycle.

An engaging lesson on animal adaptations designed for 5th-grade students who struggle with reading. The lesson uses high-interest examples, simplified text, and visual supports to explain how physical and behavioral traits help animals survive in extreme environments.

Students act as 'Marine Bio-Engineers' to design and build artificial reef structures that support a healthy ecosystem on Mystery Island's coast, focusing on biotic and abiotic interactions.

Students design and build 'Food Web Restoration' models to visualize and explain the flow of energy from producers to multiple consumers on Mystery Island.

Students design and build 'Weather Shields' to protect a model plant from extreme temperature and precipitation changes on Mystery Island, exploring how environmental factors affect organisms.

Students design external structures for a 'Mystery Organism' to help it meet its basic needs (food, water, shelter) on Mystery Island, focusing on the link between structure and function.

A deep dive into the subatomic origins of plate tectonics, tracing the journey from unstable nuclei to the massive convection currents that move continents.

A comprehensive assessment lesson focusing on the specific events of prophase, metaphase, anaphase, telophase, and cytokinesis through detailed matching exercises.