Students will investigate the properties of different types of matter and apply the concept of "P1: Matter" to design, model, and 3D print an object using a MakerBot 3D printer. Hands-On STEM Design
Have you ever wondered what the real reason was as to why Galaga was such a popular arcade game? Look no further this lesson has you covered. Students will create their very own modern version of
MS MakeCode is the perfect stepping stone into the world of Scratch. Students will be able to create a working video game in one class period. As we all know classic video games were not built over
This epic road trip is an end-of-year project where students are given the opportunity to reflect on their learning and select 6 unique stops in Arizona that a tourist should visit. Students are led
In this multi-day lesson students will learn about prosthetics, design and build a model of a prosthetic limb, research prosthetics today and then have a Socratic Seminar to both share and debate
This lesson helps students understand the properties of 3D solids from their 2D base shapes and teaches them how to use CAD software to build their own 3D models of real world objects by breaking them
In this lesson students will discover harmful effects and chemical makeups of artificial ingredients, specifically food coloring and red dyes. Students will experiment with and demonstrate capillary
This four lesson unit helps students explore the steps involved in the initial building of a new school: selecting a site based on the boundary and size of the land and then explores light energy and
Student learn to code robots using VEXs free VEX VR code.
Students will explore mathematical rules for combining fractions with unlike denominators by modeling equivalent resistance calculations for resistors wired in parallel electrical circuits. Using a
Create potential for masses or charges. Students get to create 3D models of these potential and gain a deeper qualitative representation of why masses or charge move towards lowest potential.
This lesson is part 2 of 2, Days 3 and 4. This lesson is set up to have students explore the friction bridge designed by Leonardo Da Vinci. Students have discovered the inventor and become familiar
This lesson is part 1 of 2. This lesson is set up to have students explore the friction bridge designed by Leonardo Da Vinci. Students first discover the inventor and become familiar with his life
In this lesson, students uses a PhET simulation to investigate the types of energy and its conservation. They then perform an actual experiment to prove or disprove their findings from the simulation.
Students studying 18th century portraits and way of life for diverse people in the founding era will use AI photo generators to create portraits of themselves. They will use the generation of their
In this STEAM lesson plan students will engage in creative design using the Cricut. Students will be expected to design and build their own shoe design inspired by the Vans company. Through this
An investigation into the function and uses of solar panels in agriculture - Agrivoltaics. Exploring how to get the most efficient use of your solar panels for your gardens.
This project sets students up to explore animal anatomy and physiology with the idea of replacing a lost appendage (beak, leg, tail, fin, etc.) This is used in small groups of 2 or 3 over the course
In this lesson, students are introduced to the use of synthetic pigments (biomimicry) in things they use everyday to make art. Students use solvents to separate colors and study chromatography in
This lesson pairs STEM with the book -Percy Jackson and the Olympians: The Lightning Thief. Students will discuss characters, their relationships to the Greek Gods, the importance of the Greek Gods
Students will get the opportunity to engage in scientific research, studying sustainability and fuel options, while creating models to represent their knowledge.
Through guided lessons and research, students generate their own circuit review questions by creating a board game that requires designing and building several circuits.
Students will apply STEM principles to design and build a working circuit in the shape of a heart, incorporating science concepts, technology tools, engineering skills, and mathematical calculations.