STEM Lesson Plans

Students are introduced to the concept of nanotechnology with a small group research activity about the different industries using nanotechnology.

This is a hands-on activity where students can visualize, using Skittles as atoms, the concept of balancing chemical reactions. Many students get thrown off by the fact that products often look, smell

Students learn about photochemical reactions which are chemical reactions that require light as activation energy. Students create ball and stick models to recreate sample photochemical reactions

In a chemiluminescence chemical reaction, light is generated as a product. What causes light to be generated from chemicals that interact? This chemistry lesson explores the reasons why light is

In this lesson plan, students will be able to build a simple electric motor and study how simple changes affect the motor's rotation. They will learn how energy comes in many forms, and how electric

In this lesson plan, students will be able to investigate battery cells as they construct their own simple batteries: They will know that batteries are a common store of energy for many devices that

Student teams design insulated beverage cups with the challenge to test them to determine which material works best as an insulator to keep a hot beverage warm for as long as possible. Students test

In this lesson, students cover concepts like states of matter and chemical changes. Students will apply these concepts to an activity where they will make fake snow. Students will be challenged to

This is an introductory activity to reaction kinetics at an AP Chemistry level. Students use model kits or Legos in an activity that allows them to model how changing the concentration of reactants in

Engineers create and use new materials, as well as new combinations of existing materials to design innovative new products and technologies—all based upon the chemical and physical properties of

Students will create a Google slideshow presentation to document their progress through the engineering design process, which includes: researching the science of sound, then creating an instrument

After learning about emission spectra, electron energy levels, orbitals and configurations, and periodic trends for atomic radius and ionization energy; this is concluding activity that require

This is a phenomena-based introduction to how emission spectra of elements and the connection to electrons and energy levels. Students first get to explore the emission spectra of several gases using

This lesson focuses on using the engineering design process and simple machines to design a device that the students can use to safely transport radioactive orbs across the span of 8 feet. Students

Students will read and respond to the story, Room on the Broom. Then students will plan and create a sturdy broom to hold as many pumpkin candies as possible.

This lesson is an activity to show how projectile motion and many other motions in nature fallow a parabolic curve. Students will manipulate that knowledge and analyze data using small play tanks to

This lesson takes two days or class periods since it is an exploration of energy in the lives of the students. Day 1 involves 8 different scenarios. Day 2 is an exploration of how efficient two

This is the second part of two lessons on density. This lesson is on the density of liquids following the first lesson on density of solids. The lesson is a lab on layering several liquids with

This lesson is on density of solids. It's one lesson of two. This lesson should be first since it introduces density but it can be revised and used after the density of liquids. The lesson has a short

Get ready to learn about density! This is a density lab involving hot and cold-water layering, salt density layers, and a PHET online lab simulation.

Students will discover the many different facets of building a business including product research, marketing, finances, cost and profit analysis, product design and more.

Students observe particle movement for solids, liquids, and gases. They then write Pseudocode for coding particle behavior and then they code particle movement on Scratch for the three states/phases

This lesson could be a Part II for the 3D modeling atomic theory lesson using Tinkercad, or this lesson can be delivered independently. In this lesson students fill out an atomic theory timeline and

Students learn about atomic theory and the scientists that theorized new atomic models from experiments they conducted. Students then create a 3D model for each advancement in the theory timeline