This lesson serves to provide an extension to lesson one. In this lesson, students will have the opportunity to build their own model of the solar system to scale, utilizing math concepts of exponents
This investigation provides a fun and engaging way for students to learn about data collection, graphing, and proportional relationships while exploring the power of renewable energy. By applying
This lesson serves as visual example of the concept of exponents and how scientific notation is utilized in science. Additionally, students will utilize scientific notation to measure distance of
In this lesson, students will work in groups to design a model that will demonstrate the best erosion techniques for the model of a road experiencing flooding or heavy rainfall. Students will be given
This lesson combines math, science and art in a sparkling and engaging activity. Student will learn about rock classifications and draw an example using geometry. Students will gain an understanding
After completing a unit on weather, students will be challenged to research, design, construct and attach a snow plow to their Edison robot. Then they will create a scratch code that will navigate
In this lesson, students use the Kepler’s Laws PhET Simulation to collect data on the period and average radius of the planetary orbits. They graph and analyze that data to derive Kepler’s 3rd Law.
This lesson is the beginning stages of planning for a greenhouse. Students work to gather data and information about possible locations for the greenhouse by using their perimeter skills.
After learning about the importance of clean water and different types of filters, students engineer their own water filter.
Students will use the Sphero bots to collect and graph data to make a prediction.
Students will be using simple equipment to demonstrate the 3 laws of motion. They will be incorporating technology, math, and the scientific method to demonstrate what they know.
Volcanoes: Studying Viscosity of Lava & Magma and how it relates to The San Francisco Volcanic Field
This lesson allows students to explore why volcanoes are shaped differently and why they erupt differently. Students will investigate viscosity, silica content of igneous rock samples, and perform
Students identify the problem with drinking water contamination due to pesticide, prescription medicine, and hormones. They design solutions for a real-world problem that negatively affects the
Including themes of natural resources, art, and geography; this engineering lesson introduces students to the idea of mass conservation. While using the phenomena of the water crisis in Arizona,
In this lesson, students will learn about Wilson Bentley, the "farmer scientist" who pioneered photomicrography to photograph snowflakes and share them with the world. Students will then design and
Students in 4th grade learned about natural disasters through this interactive STEM lesson focused on the creation on a 'tsunami-proof' home. Students used the Engineering Design Process to create a
Students will learn about water availability in Arizona and design and build a prototype/model of a rain-catchment/recycling system to provide water for a school garden.
How old is Earth? How big is 1 million years compared to 1 billion years? Students will use three models to organize geologic time and practice cross multiplication to solve for a variable.
Students learn about the Colorado River watershed and the impact of water rights and usage. They will read about the past and present water flow data, build a model of the watershed, calculate data
A review of types of rocks and the rock cycle and tectonic movement. The creation of minerals. Using Associative Geology, legends, and probabilities, hunt for possible locations of the Lost Dutchman’s
Three day lesson on garbage, recycling, and composting. Day 1: Students are provided a garbage bag and no instruction on recycling. *Collect all of your disposable garbage for 24 hours. Bring it back
This lesson gives students another real life example of Newton's Second Law of Motion. Students will use force diagrams and Newton's Second Law of Motion to find their apparent weight as they
Students will build a paper marble run out of recycled paper which maximizes the time of travel. Students will then analyze the run with energy diagrams (LOL) and determine how much energy was lost.
This is an introductory activity to reaction kinetics at an AP Chemistry level. Students use model kits or Legos in an activity that allows them to model how changing the concentration of reactants in