This lesson plan focuses on Torque, assuming prior knowledge of Rotational motion, angular velocity, angular acceleration, Newton's Laws for linear motion. It also introduces Newton's laws for
This lesson assumes prior knowledge of basic electricity and magnetism concepts and focuses deeply on Induction. Levels adjusted 9 - 12, dual enrollment and AP Physics.
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
Does light have energy? Students will engage in a practical experiment to witness how light can induce changes such as heating, altering colors, and setting objects in motion. As homework, students
In this Engineering Design lesson, students use an inclined plane to create a safe and exciting zipline park for Zippy the Elf. This lesson reviews simple machines and has students explore the concept
Students will investigate the basics of a circuit by arranging the materials to make a lightbulb light up A digital product demonstrating student learning completes the lesson.
With this hands-on lesson, students will compare and contrast the growth of plants cultivated in an SPV lab environment with those grown in natural sunlight, understanding the impact of light sources
Students will explore the concepts of sound and rhythm through a STEM-focused lesson plan that integrates science, technology, engineering, and math (STEM) with music. Students will engage in hands-on
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
In this 2nd grade STEM lesson, students will learn how symbols (directional arrows) can be used to program an object's movements. They will develop an algorithm using a sequential graphic organizer to
This lesson is designed because kids 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 rubber
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
In this multi-day lesson students will learn about prosthetics, design and build a model of a prosthetic limb, research prosthetics today and then have a Socratic Seminar to both share and debate
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
Students will read and respond to the story, I Am Not Just A Scribble by Diane Alber. Students will work with a peer or small groups to build a ScribbleBot using renewable materials and two AA
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
It can be challenging to sort through the various robot options out in the market for educators. This lesson is for educators who have used robots or are new to using robots. The intention is to use
Students get to investigate how energy transfers using different phenomena. They practice using a Colorado PhET simulation on the differences between potential and kinetic energy. Students will
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
This four lesson unit helps students explore the steps involved in the initial building of a new school: selecting a site based on the boundary and size of the land and then explores light energy and
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
This lesson is a continuation of learning where we will be able to place a greenhouse on the school grounds. The students are an active part of this process. This lesson includes discovery of how much
Students will explore mathematical rules for combining fractions with unlike denominators by modeling equivalent resistance calculations for resistors wired in parallel electrical circuits. Using a