This lesson provides context for the 6th grade physical science standards dealing with matter. It enables students to anchor their learning in real world issues as they combine data literacy and art
In this lesson, students use real-world data to explore criteria for air pollutants. If students continue to the next lesson in this series, they create data-based art to deepen and demonstrate their
Students will investigate the basics of a circuit by arranging the materials to make a lightbulb light up A digital product demonstrating student learning completes the lesson.
This lesson is about exploring Arizona's state bird, the cactus wren, that lives in the desert, has special body parts and behaviors that help it survive in its harsh environment. Students will learn
Students will learn about nanotechnology in medicine and the use of nanorobotics. In this hands-on STEM lesson, students create nanobot using simple materials like toothbrush heads, motors, and
In this engaging STEM lesson for 4th - 5th graders, students explore nanotechnology through hands-on activities, discussions, and a creative project. They learn about the tiny world of nanoscale
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
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
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
This lesson explores the concept of density. Students will observe a phenomenon involving floating and sinking. They will design their own investigations and they will learn how to use the density
The investigation focuses on exploring the impact of hose length on water flow rate in a solar-powered pump system. Students will set up a simple experiment using a solar pump connected to hoses of
Structured activities to support learning up Quantum Model as improvement over traditional "solar system" atomic model, or Bohr's atomic model. Students learn to relate Quantum numbers to describe
In the captivating lesson, "Dive into the World of Atoms," sixth-grade students embark on a journey into the microscopic realm to discover the fundamental building blocks of matter. The class kicks
Lesson plan integrating Arizona Science and ELA standards for comparing and researching animal cells and plant cells, followed by a creative video project where students personify the parts of a
Students use a 2-D physics sandbox, called Algodoo, to simulate the factors that might affect the period of a circular orbit of a planet about a star. Students develop Kepler's 3rd Law conceptually by
Creating a photosynthesis model out of clay or play-doh and making a video/podcast as an expert panel to provide information and discussionm.
Students will investigate the geological features of the Santa Catalinas. Specifically the phenomenon of Catalina Gneiss. Students will research the formation of the Tucson basin and Santa Catalinas
This project allows students to research and "sell" the Sharks and their competitors on their energy or fuel source. A strong emphasis on research is embedded with the ability to interject with daily
In this lab students will observe how five different ice cubes react while melting. Each ice cube is made of a different liquid (matter). They will then collect their data on length, height, and
Using The Wild Robot by Peter Brown as provocation, students will develop a project integrating math, science, engineering and ELA standards. Students will build a robot prototype and take it through
This set of lessons allows students to model the decay chains of radioactive isotopes and relate the mathematical patterns and scientific concepts together in a innovative and interactive way.
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
This lesson will help students learn how to code on micro:bits and create on this mini coding board. Students do not need the physical micro:bit to complete this lesson. On the website, there is a