This is a simple lesson that explores the science behind pendulums. Students make a basic pendulum to explore the variables of mass and string length, and compare results to their knowledge of the
This lesson plan focuses on Torque, assuming prior knowledge of Rotational motion, angular velocity, angular acceleration, Newton's Laws for linear motion. It also introduces Newton's laws for
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.
This lesson uses a diagram of a football being punted to demonstrate the forces of motion and the transfer of energy. Students are then challenged to apply what they learned to engineer a mechanical
In this lesson, students explore gravitational potential energy changes with the mass of an object and the height from which it is dropped. Students record the drop in slow motion to capture the
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
In this lesson, students create paper rockets and measure the distance launched. Students are using the engineering design process and get to modify their design in order to increase the distance
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
In this project, 8th-grade students will engage in hands-on exploration of elastic potential energy and its conversion to kinetic energy using small catapults. Through experimentation and data
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.
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
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.
Upon completion of this lesson, the student should know: • The relationship between Bernoulli's Principle and Newton’s Laws of Motion and how they were used to develop a machine that could fly. • The
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
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
Students will learn about kinetic and potential energy and how energy transfers. They will use that knowledge in order to collaborate with peers to create a roller coaster that will demonstrate this