STEM Lesson Plans

This is a phenomena-based lesson where students will create a model to demonstrate the earth’s rotation during each season to investigate the change in light during the seasons. Links to resources are

This engaging lesson allows students the opportunity to employ prior knowledge while demonstrating knowledge of various standards in an inter-disciplinary, hands-on lesson. The utilization of data

I can use the engineering process to create a shock absorbing system that will protect two “astronauts” in a lander as it is dropped from various heights on the moon.

Students will upload their pictures into the Stop Motion app on the Ipad to edit with sound effects. Students will then be able to select a green screen background to use when they upload the film

Lesson 3 of 4 - This lesson focuses on students will begin taking photographs of their Lego “set” using the Ipad or Chromebook on a tripod to capture stop-motion movement with the individual pictures

A Stop Motion Animated Movie with a Green Screen background based off of a Lego Challenge built in Lesson 1. Students will create a storyboard and script. This is Lesson 2 of 4 lessons.

Part 1 of a four-part series of lessons that begins with a Lego Challenge which will become the set for a stop motion video created by students.

This lesson is designed to have students investigate how objects, of different masses, will be affected when dropped to Earth. The lesson begins with a phenomena video - this video connects the idea

This is a continuation of lesson 1 and 2. Students will learn about kinetic vs. potential energy and apply that knowledge to their car designs.

Students learn about passive solar energy and design and build a model of a passive solar house.

Students will develop a model of a city and have it be protected from "the clickers".

In this first part of a three part unit, students explore the phenomenon of an LED light and a coin battery. They will discover the difference between a closed and open circuit, using a STEM journal

Use the Edison robots to tell a story from the perspective of an immigrant/emigrant moving through the US during the time period of 1700-to 1900 as it fits 5th grade Social Science Standards. Students

This is a two-day introductory lab exercise using video analysis to derive the equations that govern projectile motion. It employs elements of Modeling Instruction to engage students in doing science.

This lesson provides an overview of the differences between living and nonliving things. Students will be asked to compare and contrast living and nonliving things and describe the characteristics of

In Arizona, rain a major component of the water cycle, is a precious and vital. Students will gain an understanding of the three phase of watrer on the earth: solid, liquid and gas and the four stages

Let the students experience being industrial or manufacturing engineers as they convince bag companies about the best plastic material to upcycle for a more sustainable bag option. Through the Plastic

Review of Newton’s Laws of Motion Review of potential and kinetic energy. Review of transformational energy. How does mass impact kinetic energy? What is a chain reaction? What is a Rube Goldberg

Potential and kinetic energy. Newton’s Second Law of Motion Transformational energy The history, types, and functions of water wheels Renewable energy? Calculating rate of revolution Sketch and design

Students will work together to create a skyscraper using different types of materials. This activity aims to see how the shaking movements of the ground, called seismic waves, affect the skyscraper

This is a lesson that engages students to critically read informational text, construct an argument with evidence, and engage in academic discourse about the nature, living or non-living, of viruses

Students get to discover the relationship between solutes and solvents in relation to concentration. As an inquiry based lab, students will mix their own concentrations of Kool-Aid or other powdered

Students work as engineers using the Engineering Design Process to design and create a parachute that will safely land a "rover" on Mars! This STEM activity uses easy-to-gather materials for parachute

Day 3 of 3 in a skateboard building unit. Student will apply Newton's law skateboarding, deconstruct and construct a basic skateboard, learn basic safety and outdoor riding rules.