Grades:
6th Grade
This lesson starts by discussing/learning what is matter, the states of matter, and the properties of matter. It continues with what is mass and how to measure it. Two labs follow: density of solids
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:
6th Grade, 7th Grade
Students will learn basic concepts of physics, including velocity, motion, and vector. S tudents will develop and use a model to predict how forces act on objects at a distance. Finally students will
Grades:
8th Grade
In this lesson students will gather data about local tree diameters. They will then estimate the approximate age of trees. Students build connections between a tree’s growth and environmental factors
Grades:
4th Grade, 5th Grade, 6th Grade
Summary: Students will design and create a model of a flowering plant that correctly displays its external structure. Materials: Straws, toothpicks, felt, paper, string, wooden skewers, modeling clay
Grades:
5th Grade, 6th Grade
Students create a stop motion movie that explains a pattern on Earth that is caused by the Earth's rotation and revolution around the sun. Required materials include iPads, construction paper, and
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:
6th Grade
In this 1st lesson in a series of 3, students learn about the Great Pacific Garbage Patch. They create a model and write and defend a claim about humanity's ability to mitigate the problem. This
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:
Kindergarten
In this fun lesson, students solve addition or subtraction equations. They will show their answers on a math paper or grid by coding a Bee-Bot to show their answer. This is a great way to incorporate
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:
6th Grade
Over 2 days (60 min or more each day), students create a catapult out of jumbo popsicle sticks, a water bottle cap and rubber bands. The challenge is for students to launch their snowball (cotton ball
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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:
10th Grade, 11th Grade, 12th Grade
This lesson plan includes activities for a full unit on Fission and Fusion, which are included in our state science standards. Students will create models of fusion and fission using a free online
Grades:
6th Grade, 7th Grade, 8th Grade
Students will create their own cookie cutters to fill a custom order in their bakery. They will need access to 3D design software like Tinkercad and access to a 3D printer. It's even more fun when you
Grades:
4th Grade, 5th Grade
In this hands-on lesson, students design a safety device (car/seatbelt) that can keep an egg (passenger) safe during a collision. The goal is to protect the egg from cracking during a roll down a ramp
Grades:
9th Grade, 10th Grade, 11th Grade, 12th Grade
This lesson uses a Modeling Instruction approach to developing the graphical and mathematical relationships for Circular Motion for students in Grades 9-12. Students design an experiment, collect data
Grades:
5th Grade
Can a water fountain be solar powered? YES! In this engaging lesson, students will engineer a solar powered water fountain to show how energy transformed and transferred throughout their system. Each
Grades:
9th Grade, 10th Grade, 11th Grade
In this lesson, students will be introduced to the concept of homeostasis with online research and then investigate how feedback mechanisms are used to maintain homeostasis during exercise during an
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:
4th Grade
In this creative and engaging lesson, students use Google Slides to create a stop motion animation from a personal narrative that they have written. All instructions and resources are included! It
Grades:
4th Grade
The students will work in groups to create a model of a roof that is able to survive a hurricane-like wind. Students learn about disaster preparedness, use the engineering design process to guide the
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:
3rd Grade
In this engaging lesson, students will discover that technology is not limited to electronics and cars, but that it is all around us. It is essential for students to understand that most things were
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