STEM Lesson Plans

In this hands-on lesson, students learn about earthquake engineering by researching, designing, and testing toothpick-marshmallow buildings for earthquake resistance.

Students will build a propulsion system that can deliver a payload to a given location in this engaging paper rocket engineering lesson. Students think critically and problem solve as they work

In this hands-on lesson, students design and execute an experiment to maximize caffeine extraction when making coffee. The caffeine testing is conducted using a Spectrometer. The focus of this lesson

In this outstanding lesson, students will explore circuitry through working collaboratively to build a working floor piano out of simple materials. Students explore the engineering design process by

Students explore how circuitry works with a hands-on lesson where they design and build their own working pressure plate. The use of a MakeyMakey is incorporated with helpful video resources and

More VR integration in the classroom, oh my! This is the second lesson of a two-day exploration of chain reactions. On day one, students received a general overview of chain reactions, Rube Goldberg

VR in the classroom, oh my! This Day 1 lesson provides students an introductory understanding of chain reactions, Rube Goldberg and his machines, the Oculus (Meta) Quest 2, the online game Dynamic

In this lesson, students will research to plan and design an "energy store" (battery) that will utilize potential and kinetic energy to power a city.

In this engaging lesson, students will model a standing transverse wave using a slinky and collect measurements to find the amplitude, wavelength, and frequency of their wave in order to calculate the

In this creative lesson, students will use a slinky to model two types of waves: longitudinal/compression waves and transverse waves. Through class exploration, students will first practice making the

In this creative and engaging lesson, students will create a card that incorporates a circuit design to add a light component.

In this hands-on lesson, students will model transfer of kinetic energy by preparing and measuring the temperature of two equal quantities of water, before mixing them together and then measuring the

In this hands-on lesson, students will plan, build and create a roller coaster from random materials that a Ping Pong ball can travel through. Students engage in the engineering design process as they

The scenario is that you are heading to the moon to do a year residency program. You desire a “radio tower” to be built so that you can communicate with your friends back on Earth. This Challenge

Students will learn about balanced vs unbalanced forces by trying to rescue bears from the "Lava" (the table) using certain given supplies.

In this lesson students will be creating a geometric design to create a stained-glass window. They will then assemble the window with pretzel rods, royal icing and melted Jolly Ranchers. Students can

In this lesson, students will apply their knowledge from the prior day's lesson (Magnetic Marble Run Newton's Laws of Motion Day 1), to complete an Advanced Build of a Magnetic Marble Run. This lesson

This lesson can be used to reinforce physical science standards, engineering design concepts, and collaboration. Students will work with a National Geographic Magnetic Marble Run to construct a basic

Empower with solar, motors & wireless! Unravel renewable energy, motor tech & wireless applications in an engaging STEM journey.

Unleash creativity with drones and coding! Explore the exciting world of block coding and its application in drone technology.

Discover the power of hydraulics and pneumatics! Engaging in STEM activity on building systems and understanding fluid dynamics.

In this hands-on lesson, students will be challenged to complete an obstacle course with a Sphero/RVR/Edison through coding. Students will be given a task list to complete and will be timed. Math

This lesson allows students to explore the Law of Conservation of Mass through a balloon lab activity using baking soda and vinegar. Students will be able to develop a model to describe their findings

This is a multiple-day lesson plan based on Newton's 3 Laws of Motion. Students begin the lesson by collecting data observing coins moving across a table. After making the observations, students will