An investigation into the function and uses of solar panels in agriculture - Agrivoltaics. Exploring how to get the most efficient use of your solar panels for your gardens.
This lesson is the second lesson of a two-part series where students investigate concepts of biomimicry and apply them to the real world with issues like resource scarcity. In this lesson, students
In this lesson, students will learn about desert plant and animal adaptations and the concept of biomimicry. Students will discuss examples of biomimicry in nature and in the real world and will
The lesson is adapted from resources created by the Green Drone AZ Project. This is module 1 of 4 featuring focused activities to address real-world environmental challenges within Arizona communities
Students create a scale model representing earth's history in order to analyze how life has changed on earth over time.
Students use an interactive map and ArcGIS software to analyze the impacts of climate change on global populations.
A lesson to teach students how to collect, organize, interpret data, make inferences, raise awareness, and suggest possible solutions on the water quality of the waterbodies in the state of Arizona.
This is the first lesson in a series of four that are designed to help guide students to design and implement their own independent STEM research project.
This lesson combines math, science and art in a sparkling and engaging activity. Student will learn about rock classifications and draw an example using geometry. Students will gain an understanding
This lesson allows students to visualize the vast scale and immense sizes of object in the solar system. This activity can be calibrated by the math levels of your students, so they are not left
This lesson introduces the students to what are antibiotics, how they work, and why they are important. At the same time, it also talks about how an organism becomes antibiotic resistant. The students
In this lesson, students use the Kepler’s Laws PhET Simulation to collect data on the period and average radius of the planetary orbits. They graph and analyze that data to derive Kepler’s 3rd Law.
This lesson uses a PhET Simulation to allow students to collect data on the orbits of planets around our Sun, then summarize and share their results. It is designed for students in Grades 9-12.
The students construct and interpret an HR Diagram to better understand the significance and usefulness of the diagram.
This is a high-school level hands-on project that allows students to build their own working sundial, make predictions and assess their accuracy. This lesson ties in with the study of Kepler's Laws.