Grades:
6th Grade, 7th Grade, 8th Grade
Summary: Students are coding and observing robots to try and determine all forces acting on the robot. Materials; Robots that can be coded to move in different ways. Laptops to code. Agenda The
Grades:
5th Grade
Students will individually construct straw rockets. Using the launcher, students will learn the concept of Newton's third law of motion: for every action, there is a equal and opposite reaction
Grades:
6th Grade
This is a lesson plan based on playlist model where students will learn Heat transfer by using a play list and picking the topics according to their own pace. The students will need a computer/ laptop
Grades:
6th Grade, 7th Grade, 8th Grade
This lesson plan will introduce students to the basics of 3D modeling and design using Tinkercad. Materials: Computers with internet access Tinkercad accounts for each student (if your school does not
Grades:
5th Grade, 6th Grade, 7th Grade
Students will learn about the physics of motion and force and use those to create a mini-golf course hole that has obstacles and an environmental awareness theme.
Grades:
3rd Grade, 4th Grade, 5th Grade, 6th Grade, 7th Grade, 8th Grade, 9th Grade, 10th Grade, 11th Grade, 12th Grade
In this hands-on lesson, students apply their understanding of the engineering design process to build a tower made of index cards that can hold an object. There is a link to a prerequisite lesson
Grades:
5th Grade
This is the 2nd part in a 4-lesson series. This lesson is on the fins and how they work with balanced and unbalanced forces. Students will need the worksheet, the article for read and reflect, foam
Grades:
6th Grade
In this lesson, students will be learning about the challenges of farming in space for future settlements. Specifically they will focus on the difficulty of testing whether plants will grow in soil
Grades:
6th Grade, 7th Grade, 8th Grade
Are you ready to build?! In this hands-on lesson students build a model of a robot using LEGOs. They will discuss the advantages and disadvantages of robots and determine what task their model robot
Grades:
6th Grade
In this lesson, students will identify the significance of the numbers found in and around their home. Making these connections will help strengthen number sense and provide a real-world framework to
Grades:
8th Grade
This activity can be classified as Performance Based Learning. Student teams take on the role of engineers as they redesign existing packaging that is already in the market. The math focus is on
Grades:
5th Grade
In this lesson, students will be measuring the dimensions of the classroom, then calculating its perimeter, area, volume and (optional) surface area. Then they will participate in a design challenge
Grades:
6th Grade, 7th Grade, 8th Grade
Students will learn about the food chain, and the American Kestrel's place in it. Students will be able to classify organisms, construct a model of the North American Kestrel’s role in the food web
Grades:
6th Grade
Students construct models of various molecules, create histograms of the frequency of elements, and diagram parts of an atom. Students will deepen their understanding of matter--that tiny particles
Grades:
4th Grade
This would be an end of the unit project. Students would need prior knowledge about animal adaptations and biomes/habitats. Students will use Flipgrid to share, but you could use any other video app
Grades:
8th Grade
Students will use knowledge of translation, rotation and reflection to create unique 3d designs. Students will be designing backpack tags using geometry principals on graph paper, then transferring
Grades:
5th Grade
Students develop an understanding of patterns and how genetic information is passed from generation to generation. They also develop the understanding of how genetic information and environmental
Grades:
4th Grade
Students will be working together to clean up an oil spill. They will discover what an oil spill is, what causes it, and what the effects are. The simulation is made using tinfoil baking dishes
Grades:
3rd Grade, 4th Grade, 5th Grade, 6th Grade, 7th Grade, 8th Grade, 9th Grade, 10th Grade, 11th Grade, 12th Grade
In this hands-on lesson, students use the engineering design process (EDP) to create a prototype of a device that can prevent squirrels from accessing a bird feeder. This is a great way to integrate
Grades:
8th Grade, 9th Grade, 10th Grade, 11th Grade
In this activity, students will perform a hands-on, inquiry-based investigation of the tradeoffs involved in hard rock mining. The object is to purchase and develop a mine, safeguarding the
Grades:
6th Grade
In this 3rd and final lesson in a series of 3, students examine prior knowledge about the real-world problem of the Great Pacific Garbage Patch and apply their findings to design solutions. Students
Grades:
1st Grade
This lesson is based on Goldilocks and the Three Bears story. Students will focus on building a chair where a pound of dumbbell will be used to test the durability of the chair because in the story
Grades:
Kindergarten
In this lesson, students go on a nature walk, notice nature, and increase their observation skills. They will identify different plant types and make connections to the plant’s needs: sunlight, soil
Grades:
6th Grade
In this unit, students will study the effects of acid rain and chemically engineer an environmentally friendly solution to neutralize the acid in a simulated river contaminated by factory run-off
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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