This lesson is day 3 of a 3-day plan. Students use outside resources to modify and test helmet effectiveness with pocketlab sensors. In this hands-on lesson, students will create a prototype and run
Teachers will be introduced to the VEX V5 Robotic Platform. We will start with an Introduction to robotics and how robotics is used in industry. Students will understand the key resources they will be
What does polarized light mean? How can some light waves be blocked while other light waves are transmitted? This lesson plan explores the phenomenon of polarized light and how light waves interact
How do light rays reflect and refract? Does light travel at different speeds in different mediums? This lesson reviews how light waves can be reflected and refracted, and how light waves can change
This lesson plan helps students understand exponential functions by using an LED circuit. LED luminosity decreases at an exponential rate as more are added in series. As students add more lights to
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 allows robotics students to redesign a working floor vacuum and design it to fit the needs of a robotics lab - it should be able to pick up heavier and larger objects or loose parts off
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.
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
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.
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.
The purpose of this lesson and laboratory exercise is for students to gain an understanding of chemical reactions and how they work. The students will have the opportunity to see a reaction between