STEM Lesson Plans

This lesson is about geometric shapes. Student will watch videos about the solar system. They will view the geometric shapes in the solar system and draw pictures of them.

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 is part 1 of a unit, other lessons are posted. In this lesson students will use prior knowledge of how wheels and axles work in order to create two symmetrical sides of a ferris wheel. This

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

In this hands-on lesson, students will have a teacher read aloud: "Rosie Revere, Engineer" and discuss the importance of perseverance and imagination while creating, building, and testing. They will

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

This hands-on lesson allows students to investigate how the length of a piece of string affects the speed and centripetal force on an object moving in a circular path at a constant speed and use

In this hands-on lesson, students build small-scale wind-powered cars. They construct an understanding that energy is transferred from the wind to the sail car. Students explain how they used

In this lesson, students will learn about the history of flight and the technological advancements that led to modern aviation. Students will learn about how the study of birds and other flying

What are we learning? We are learning about the history of the Mars Rover program and how scientists had to work together to solve problems and make sure the rover landed safely on the Red Planet. We

This inviting lesson works in elementary/middle school classes. It’s ideal for independent centers & enrichment clubs. Additional challenges are easy to add. Check out my student Building Permit

Students will make a connection between force, mass, and acceleration (more so velocity). They will design and conduct an experiment to explain how different sized rocks have different outcomes on

Students will design a wind powered coach to take Cinderella to the ball using paper, straws, and life savers. They will be able to work with a group to design, test, and revise their idea before

In this engaging lesson, students engineer spinners to demonstrate force and motion. They are provided with materials and use pennies to help create a better balance. Students compete to see who can

Students will learn about Tony Sarg, the Puppeteer of Macy's Thanksgiving Day Parade and will learn the history of the parade. Students will then design and create their own balloon character for a

This lesson is part four of four lessons, which culminates in the flight of drones built by the students. Lesson 4: FLY focuses on the controller pairing and functions, troubleshooting possible

This lesson is part three of four lessons, which culminate in the flight of drones built by the students. Lesson 3: Max Axiom, STEM Adventurer focuses on commercial, scientific, and government drones

This lesson is part two of four lessons, which will culminate in the flight of drones built by the students. Lesson 2: Harmony focuses on how stakeholders work together to ensure safety, mobility, and

This lesson is part one of four lessons, which will culminate in the flight of drones built by the students. Lesson 1: SOAR focuses on social-emotional learning (SEL), noticing and wondering, and the

Students will use knowledge of forces and motions to create a pinball machine using simple machines.

Students will brainstorm, and make predictions of why an airplane can fly. The teacher will present the knowledge of aerodynamics to the students using video , and giving them opportunity to process

Students use the engineering design process to create paper rocket protoypes and complete a cost-benefit analysis to help choose the best one.

Context: This lesson takes place in a classroom for two or more class periods Students may work in small groups of 2-4. An emphasis on the experiment of making an indestructible Edison robot Creative

Students will create an inclined plane using Pythagorean Theorem and will experiment with rolling objects and try to find a solution to reduce the speed through friction, or air resistance or weight.