Grades:
5th Grade
Summary: This lesson is a precursor to subsequent lessons comparing how garden growing techniques determine plant growth/production. Students will be activating prior knowledge in the life sciences
Grades:
1st Grade, 2nd Grade, 3rd Grade, 4th Grade
This lesson takes place over three hour-long, before- school STEAM club meetings. Students will discuss and learning about weather and climate. Then they will complete an engineering challenge to
Grades:
7th Grade
Students use their knowledge about cells and their organelles to create a dichotomous key to help guide others' thinking to decide if a cell is a plant cell or animal cell. Students need access to
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Tide Pools Ecosystem: Human Impact
Grades:
6th Grade
This lesson plan includes ideas and materials to last for 5 days. The students will be learning about human impact on tide pools and engineering their own solution. On the first day will be about
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:
3rd Grade, 4th Grade
This lesson is going to be designed to teach third graders about the plant cells and anatomy. The lesson is based on an overview of the plant cells and an interactive experience for students to
Grades:
6th Grade, 7th Grade, 8th Grade, 9th Grade
This lesson is part of a school-wide project to renovate a greenhouse and create a native seed library. This lesson is intended to create intrinsic motivation to engage in the project. This lesson
Grades:
8th Grade
Using rock salt, ice, juice, and thermometers, students will use their inquiry framework to investigate how slushies are made and see if they are able to replicate the results of a traditional slushy
Grades:
7th Grade
This is Task 2 (Lesson 2) of four tasks (lessons) of an overall project of “Escaping 7th Grade Science Room.” Students will be constructing Pangea with their group after reviewing the concepts.
Grades:
4th Grade, 5th Grade
Students will be working with creating series and parallel circuits. Students will gain an understanding of the components used to create circuits and how circuits function in our everyday lives.
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:
4th Grade, 5th Grade, 6th Grade, 7th Grade, 8th Grade
Students become engineers and create a modified adaptive device after disassembling and assembling eyewear and creating a new adaptive device in this engaging lesson. This real-world problem-solving
Grades:
4th Grade, 5th Grade, 6th Grade
This lesson plan includes ideas and materials centered on Mark Kelly's book Mousetronaut. The students will be discussing gravity and listening to the book. They will then be participating in an
Grades:
5th Grade
In this lesson, students will be able to analyze and communicate evidence of the effects of balanced and unbalanced forces on the motion of objects. They conduct research to provide evidence of the
Grades:
5th Grade
Students will use multiple modes of learning to learn about how force is affected by mass changes. The book Newton and Me will be read aloud and used for a discussion. Finally students will construct
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
Within this hands-on lesson, students use the engineering design process to create a device that will protect an egg from a two-story drop. They work within small groups and test their creation and
Grades:
4th Grade
Students are experimenting on their own to find out which materials would create the best water filter, after reading The Water Princess and discussing water scarcity. This engaging lesson combines
Grades:
Kindergarten, 1st Grade
Use the Engineering Design Process to solve Peter's problem! Students will use recycled materials to create their own chair for Peter. After introducing the Engineering Design Process, students will
Grades:
8th Grade
In this lesson students analyze the relationship between rainfall and tree growth from a sample. They will then graphically model that relationship. This is the 4th lesson in a series of 4. Links to
Grades:
7th Grade
This is Task 3 (Lesson 3) of four tasks (lessons) of an overall project entitled “Escaping 7th Grade Science Room”. Students will construct a 3D model of both an animal cell and human cell. They will
Grades:
8th Grade
Students will measure the height, diameter, and circumference of a tree in this engaging lesson. They will then determine a tree’s age by counting growth rings. Students will determine how rainfall
Grades:
Kindergarten, 1st Grade
In this fun lesson, students will develop a simple sketch and a physical model of a float to illustrate how the shape of an object helps it function as needed to solve a given problem. They will then
Grades:
5th Grade
In this lesson there is an emphasis on explaining how magnets have a force that can move other objects at a distance. Students will first watch a video in which they will be amazed by some magnetic
Featured Lesson Plans
Check out these notable lesson plans.
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Shelter From the Sun
Grades:
Kindergarten
Kindergarten students explore earth materials to find out how the sun and other heat sources change their temperature. The students use what they learn in order to choose earth materials that would be
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OMG! Empirical Formulas
Grades:
9th Grade, 10th Grade, 11th Grade, 12th Grade
Students will discover the Empirical Formula for the synthesis of Magnesium and Oxygen through a laboratory experiment in which they will react Magnesium Ribbon with atmospheric Oxygen by super
Grades:
6th Grade, 7th Grade, 8th Grade
In this lesson, students will explore the concepts of gear ratios and proportions. They will construct a working gear system and observe how the ratio between gears affects their motion. They will use