STEM Lesson Plans

This lesson assumes prior knowledge of basic electricity and magnetism concepts and focuses deeply on Induction. Levels adjusted for 9th to 12th grade, dual enrollment and AP Physics.

What does polarized light mean? How can some light waves be blocked while other light waves are transmitted? This lesson plan explores the phenomenon of polarized light and how light waves interact

How do light rays reflect and refract? Does light travel at different speeds in different mediums? This lesson reviews how light waves can be reflected and refracted, and how light waves can change

Students will use their knowledge of Newton's Laws of Motion to design and build a "ski jump" for a Sphero Bolt. This activity can be used for Science, Social Studies, Engineering, and (possibly)

In this hands-on lesson, students create solid fuel rockets to explore the idea of parabolic motion and outside factors which can affect the path of a rocket. This lesson has enrichment involving the

In this engaging lesson, students will connect the path of a straw rocket to the arc of a parabola. By changing the angle of the launcher, they will discover the relationship between distance and

This lesson provides context for the 6th grade physical science standards dealing with matter. It enables students to anchor their learning in real world issues as they combine data literacy and art

In this engaging lesson, students use real-world data to explore criteria for air pollutants. If students continue to the next lesson in this series, they create data-based art to deepen and

This lesson uses a diagram of a football being punted to demonstrate the forces of motion and the transfer of energy. Students are then challenged to apply what they learned to engineer a mechanical

In this lesson, students explore gravitational potential energy changes with the mass of an object and the height from which it is dropped. Students record the drop in slow motion to capture the

In this physics lesson, students will explore force, motion, kinetic energy and potential energy through projects and gameplay. They create a prototype of a cup and ball game using the engineering

Students will learn about nanotechnology in medicine and the use of nanorobotics. In this hands-on STEM lesson, students create nanobot using simple materials like toothbrush heads, motors, and

In this engaging STEM lesson for 4th - 5th graders, students explore nanotechnology through hands-on activities, discussions, and a creative project. They learn about the tiny world of nanoscale

In this lesson, students create paper rockets and measure the distance launched. Students are using the engineering design process and are provided time to modify their design in order to increase the

Students will investigate the properties of different types of matter and apply the concept of "P1: Matter" to design, model, and 3D print an object using a MakerBot 3D printer. Hands-On STEM Design

This lesson was designed because students love to compete, and it primes them to use the Engineering Design process to build a boat and revise their design as needed. Students must use at least one

In this hands-on engineering and science project, students will become earthquake engineers tasked with designing and constructing earthquake-proof structures using toothpicks and mini marshmallows

In this project, 8th-grade students will engage in hands-on exploration of elastic potential energy and its conversion to kinetic energy using small catapults. Through experimentation and data

This lesson explores the concept of density. Students will observe a phenomenon involving floating and sinking. They will design their own investigations and they will learn how to use the density

The investigation focuses on exploring the impact of hose length on water flow rate in a solar-powered pump system. Students will set up a simple experiment using a solar pump connected to hoses of

In this lesson designed for 7th grade, students will explore increasing and decreasing magnetic field of electromagnets by changing the iron core, wire gauge, or wire coils to determine which variable

After becoming familiar with the factors that affect lift from the previous Flight Basics lesson and going over key weather concepts from this lesson, students will be expected to make a device to

Structured activities to support learning up Quantum Model as improvement over traditional "solar system" atomic model, or Bohr's atomic model. Students learn to relate Quantum numbers to describe

Upon completion of this lesson, the student should know: • The relationship between Bernoulli's Principle and Newton’s Laws of Motion and how they were used to develop a machine that could fly. • The