This lesson assumes prior knowledge of basic electricity and magnetism concepts and focuses deeply on Induction. Levels adjusted 9 - 12, dual enrollment and AP Physics.
In this hands-on lesson, students create solid fuel rockets to explore the idea of parabolic motion and outside factors which can affect the path of a rocket. This lesson has enrichment involving the
In this engaging lesson, students will connect the path of a straw rock to the arc of a parabola. By changing the angle of the launcher, they will discover the relationship between distance and height
Intro to magnets purpose: students engage in practical experimentation. The primary objective of this lesson is to acquaint students with the concept that magnetic force can either draw objects closer
This is the third lesson in a 4-lesson unit about the physics of bat and ball style games. Students will explore force, motion, kinetic energy and potential energy through projects and gameplay. In
Students will collect and analyze data demonstrating how electromagnetic forces can be attractive or repulsive in this lesson. They test different items using a magnetic wand. Students will carry out
Students will explore the concepts of sound and rhythm through a STEM-focused lesson plan that integrates science, technology, engineering, and math (STEM) with music. Students will engage in hands-on
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
This is a continuation lesson in which we compare student data to the previous day's data using GeoGebra to help us generate dot plots and calculate statistics.
Students will create dot plots (both physically and using technology) to represent class data, determine important statistics, and interpret those statistics in context.
Students will understand the concept of levers as simple machines and will identify and classify everyday objects as levers. Students will apply basic mathematical concepts to measure and compare the
After becoming familiar with the factors that affect lift from the previous Flight Basics lesson and going over key weather concepts from this lesson, students will be expected to make a device to
Student learn to code robots using VEXs free VEX VR code.
Students learn about the chemistry that exists in some of the world's oldest surviving paintings. This lesson is the final part of a 3 part painting series, and focuses on binding agents in paint
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 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 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
The lesson is primarily about building a Lego or any block tower with a good foundation. This can be done in a group of 5 - 7 students. In my case I am considering 7th and 8th grade class to perform
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.
In this lesson, students will build upon their prior knowledge of observational drawing by adding a digital microscope. They will explore, review photos they take, decide on a question to investigate