Students will use the engineering and design process to create a marble maze.
Students will be read the book: "Oh Say Can You Seed?" by Bonnie Worth and Aristides Ruiz Students will learn new vocabulary for the parts of a flowering plant and identify parts together. Students
This is the final lesson in a set of 4 (total) lessons. This is when students will be reviewing the information from planting and the first observation day. Students will begin logging and comparing
In this project students will be creating an agricultural community display. Students will need to create a proposal letter first to secure funding. Then they will create a blueprint that needs to be
This lesson is the first of two about vermicomposting. It explains what vermicomposting is and how to start a worm bin. The second lesson will discuss harvesting compost and moving worms to a garden
This lesson teaches 3D design using Tinkercad. It provides tutorials for teachers to use in a hands-on lab to orient students to 3D design so students can begin to draft their own prototypes.
Using prior knowledge of vertices, angles and sides, students will explore the traits of six shapes, polygons and non-polygons, and correctly categorize shapes with corresponding traits.
In this lesson, students will apply the knowledge of calculating volume to determine the amount of soil they need to fill their planters. They will also use their skills to multiply and divide the
This is a series of lessons that discusses the process and factors that may affect and may not affect seed germination. This also builds the background of the students about the needs of the plants
In 5th grade Social Studies we learn about the American Revolution and study evidence of Espionage used by the Patriots to win the Revolution. Prior to the activity students will read a variety of
Methane emissions are far more potent then CO2 emissions in the short-run in the atmosphere yet this is rarely covered in the media. Students will create a multi-media public service campaign to cover
Students use color theory, write recipes, and use an iterative design process to create a natural dye.
Using the Engineering Design Process, students work in teams to create a covered wagon that the Bee-Bot pulls as they program on a mat from Missouri to Oregon. Students are learning about the Western
Students examine the relationship between a ball's bounce height and its drop height to see a linear relationship. They then calculate the slope of their data to compare "bounciness" with other groups
Students think about dipping a cube in paint, then count the amount of faces that are painted (either 1, 2, 3, or none) they then make a table with the data and are asked to find any patterns they may
Using Vernier motion sensor technology (not included) students will model their position vs time on Vernier Graphical Analysis.
This is part 2 of 2 where students will be conducting a life science experiment with their Worm Worlds created from part 1 and finding out what a red wiggler's favorite food is.
In this lesson, students conduct an experiment that answers the following driving question: Which type of bedding do red wigglers like better- coconut husk or shredded cardboard? This lesson allows
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.
Students will first build and collect data on how fast their solar car is. Then students can change items to increase the efficiency of the solar panel to increase the overall speed of the solar car.
Students will increase efficiency of the solar panels by using angles. Students are given a solar panel, protractor, and a multimeter. They need to complete a pre- investigation plane before they
This lesson plan provides material for two 90-minute periods. Day one provides guided opportunities to explore chemical equations and day two consists of 10 hands-on stations practicing and applying
Featured Lesson Plans
Check out these notable lesson plans.
This is lesson 4 of the Life Science Unit. Students will evaluate and identify how the features of a young animal offspring and parent are similar (not identical) and different. They will code the
Animal Habitats: Lesson 3
This is lesson 3 of the Life Science Unit. Students design a habitat for an organism using earth material. Links to all lessons and optional fiction read-alouds, picture sorts, STEM hands-on
Animal Classification: Lesson 2
This is lesson 2 of the Life Science Unit. Students learn about animal classifications. Links to all lessons and optional fiction read-alouds, picture sorts, STEM hands-on activities, journal prompts