This investigation provides a fun and engaging way for students to learn about data collection, graphing, and proportional relationships while exploring the power of renewable energy. By applying
Students will design and build an electric car from simple craft materials. Students will complete an electric circuit and use gears to change the motor speed from too fast with little torque to
Students will design and build a rubber band powered car. They will see how potential elastic energy can cause movement.
This is the first of a series of lessons where students will build a robotic rover using the BBC micro:bit. In this lesson, students will determine the proper diameter for M3 bolts by making test
A thermos is a must-have device for anyone who wants to enjoy hot or cold beverages on-the-go. It is a simple yet ingenious invention that utilizes scientific principles to keep our drinks at the
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.
Students will continue their investigation into school waste by exploring the area provided for a composting. Students will measure to find the volume of the three compost spaces. They will then
This is part 2 of a two-part series focused on the effects of grafting tomato plants to potato root stock in order to create "pomato" plants. This lesson is written for junior high students but can be
Students will combine calcium chloride and water which results in an exothermic reaction. The students will use limited resources to create a hand warmer and determine which ratio of calcium chloride
In this lesson, students will work in groups to design a model that will demonstrate the best erosion techniques for the model of a road experiencing flooding or heavy rainfall. Students will be given
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 is intended to be the second lesson within a series. After the first lesson, exploring the transfer of power within a system, Students utilize this lesson, lesson 2, to explain how and
The goal of this engaging science lesson is to deepen students' understanding of magnets, electromagnetic forces, and their practical applications in real-world technology. Aligned with the 7.P2U1.1
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 is a great opportunity to show students that coding can be a lot of fun, and it doesn’t have to be scary. Many high school students with little to no prior coding experience often automatically
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.
In this lesson students will use everything they've done in parts 1-3 to analyze how mutations affect proteins. Students will build the mutated proteins that they sequenced in part 3. They will test
In this lesson, students will be introduced to mutations in DNA. They will create beaded or illustrated "codes" to represent 5 different mutations to their original protein codes. These codes will be
In this lesson students will continue to learn about protein synthesis. At the beginning of this lesson students should know that genes have the code to make proteins. Today they will be introduced to
In this lesson students are introduced to the idea that DNA is the code to create proteins and that proteins can be structural or functional. Students are given a problem to create a model of a
Students have the opportunity explore different materials that use nanotechnology and then discuss the key differences between macroscale and nanoscale impacts on those materials.
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.
This is a multi-day engineering design project. I use this for 2 weeks, a total of ten 50-minute periods. Students will research and design a dog house, creating a 3D model in a web-based computer