Grades:
4th Grade, 5th Grade, 6th Grade, 7th Grade, 8th Grade
In this hands-on lesson, students learn how to get their drone into the air. It covers hovering, yaw, roll, and pitch. Before the students launch their drones, there is a discussion about preparing
Grades:
5th Grade
This lesson is the 1st lesson in a series of 3 on balanced and unbalanced forces. Students will learn about the “Wonderland of Rocks” at Chiricahua National Monument near Willcox, Arizona, and view a
Grades:
7th Grade
Students will design balloon rockets in order to solidify an understanding of Newton's Third Law of Motion . Students will develop an investigation question and then perform their investigation. For
Grades:
5th Grade
This is part one of a design challenge where students are asked to brainstorm a device that allows energy to be transferred for as long as possible, similar to a Newton's Cradle. Students use the
Grades:
5th Grade
In this lesson students will explore engineering skills in the construction of hot air balloons. They will test their creations to see if they will fly/float and make adjustments if needed.
Grades:
4th Grade, 5th Grade, 6th Grade, 7th Grade, 8th Grade
This is the first lesson in a series of 4. Students gain an understanding of the forces that are acting upon a drone when it is flying. They will learn about how thrust, weight, lift and drag work
Grades:
5th Grade
Students will begin designing a container to keep and egg safe when dropped from various heights. As they begin the lesson, students will watch a video and discuss science and engineering practices
Grades:
5th Grade
After watching a video of the space station, students will design and build a model space station containing certain requirements. Students will use scale in order to create a blue print and then
Grades:
4th Grade, 5th Grade
In this hands-on lesson, students will explore how speed is calculated, what inertia is and apply it to Newton’s Laws of Motion. They use the engineering design process to construct race cars out of
Featured
Flying High: Airplane Design
Grades:
5th Grade
In this engaging lesson, students explore the forces of flight and use the Engineering Design Process to improve the flight times and distance traveled with a paper airplane. Resources are included
Grades:
7th Grade
This lesson is about building and testing a Ferris Wheel and the history behind it. Students should be familiar with the concepts of forces, motion, and gravity before starting this project. They
Grades:
9th Grade, 10th Grade, 11th Grade, 12th Grade
This lesson uses a Modeling Instruction approach to developing the graphical and mathematical relationship commonly known as Newton's 2nd Law for students in Grades 9-12. Students design an experiment
Grades:
7th Grade
In this interactive lesson, students will create a Duplo Lego Vehicle and test how forces affect motion. Students will be placed in groups of 3-4 and be given a force to test. They will decide which
Grades:
7th Grade
In this interactive lesson, students take three days to create a maze using Gravitrax kits and pieces. Students then use their maze to create a model and explain where they see Newton's Laws of Motion
Grades:
6th Grade
Students explore the limiting factors of yeast over 2-3 days. The materials needed are yeast, sugar, water, ice, tea kettle, empty soda or water bottles, balloons, graduated cylinder, string, ruler
Grades:
5th Grade
Students experience the process of creating a whole elevator-shaft design complete with a car and a pulley system. They will experience an integrated STEAM lesson with combined content from Science
Grades:
6th Grade
To demonstrate their understanding of how energy is passed throughout an ecosystem and the symbiotic relationships of organisms within an ecosystem, students construct a food web marble run. This
Grades:
6th Grade
In this 1-day lesson, students are challenged to collaborate with their teams to create a plan and use PVC halves to transport 1 golf ball 75 feet without touching the ball or allowing the ball to
Grades:
5th Grade
This hands-on lesson covers balanced and unbalanced forces. Students use the skills they have already been taught to apply them to a real-world situation involving rockets. You will need 500mL bottles
Grades:
5th Grade
This lesson has an emphasis on explaining what is force. It also has an emphasis on explaining how you can see and measure force. For this lesson you need several empty plastic bottles, rubber bands
Grades:
1st Grade
In this hands-on lesson, students use the engineering design process to create a balloon powered car that travels at least 5 feet. This is a fun and engaging way for students to experience science in
Grades:
5th Grade
In this creative lesson, students will create a simple machine to retrieve objects through a makeshift storm drain. There is a potential literacy integration and a focus on the engineering design
Grades:
5th Grade
This lesson focuses on kinetic and potential energy and features a rollback can. The can when complete can be rolled away from the student and then returns back to where it started. The purpose is to
Grades:
8th Grade, 9th Grade
Make quadratics come alive with stomp rockets! This is a 3-4 hour learning experience where students will build and launch paper rockets, then use the data to create quadratic equations.
Featured Lesson Plans
Check out these notable lesson plans.
Featured
Treehouse Design
Grades:
3rd Grade, 4th Grade, 5th Grade
Students will research, design and build a treehouse using the engineering design process. They will practice budgeting by pretending to have $100 to spend by using a supply budget sheet. Students
Featured
Space Case Chapters 1-7
Grades:
3rd Grade, 4th Grade, 5th Grade
This is the 2nd set of 4 lesson plans that correlate with the novel "Space Case" by Stuart Gibbs. This is a literature-inspired project base learning opportunity. The lessons include straw rockets
Featured
Splash of Science
Grades:
7th Grade, 8th Grade, 9th Grade, 10th Grade, 11th Grade, 12th Grade
Students measure the temperature of water as it cools to learn about heat transfer and thermal properties while using line of best fit, linear regressions and/or quadratic regressions.