This is lesson 3 of a 4 lesson unit. Students will apply the engineering design process with a problem scenario focusing on thermal energy efficiency in a home. The unit incorporates collecting
This is lesson 2 of a 4 lesson unit. Students will apply the engineering design process with a problem scenario focusing on thermal energy efficiency in a home. The unit incorporates collecting
This is lesson one of a 4 lesson unit. Students will apply the engineering design process with a problem scenario focusing on thermal energy efficiency in a home. The unit incorporates collecting
Students learn about kinetic and potential energy using cardboard cars and catapults, including the science and math concepts behind them, as they prepare for the associated activity in which they
I use this egg drop/crash lesson as an introduction to Energy and Energy Transfer in physics. Students understand basic kinematics, but I generally conduct this lesson before projectile motion, but it
I use this lesson as a fun activity to visualize unit conversions and the immense scale of the universe. I love this lesson because I find it challenging to teach unit conversions with hands-on
Students will compare and contrast homes and technology from 50 years ago to the present day. Students will engineer a SMART home gadget that can be implemented in to the SMART homes of the future.
Engage students with competitive activities. Students will be predicting measurements, collecting data, and determining the difference between the estimation and the actual. Students will create la
Students will focus sunlight through a pinhole onto a sheet of paper. Knowing the distance between the projection and the pinhole allows students to calculate the diameter of the Sun using ratios.
This lesson aims to introduce the concept of equilibrium point by creating and revising a model. This hands-on lesson encourages students to explore the concepts of equilibrium and balance while
Building a DNA model in the classroom can be a fun and engaging activity for students to understand the structure and properties of DNA. This is a simplified model to help students visualize DNA, as
This lesson will explore the idea of circuits as the students wire the components of a together to create a working wobble-bot.
Students will use published scientific data and current evidence to identify the phenomenon known an urban heat island effect. Students will first analyze temperature data as well as land-use data
Students will continue from their research and start an investigation to help with their solution. They will first learn about compost and what it does. They will then develop and investigation and
Students examine the relationship between a ball's bounce height and its drop height to see a linear relationship. They then calculate the slope of their data to compare "bounciness" with other groups
Students will first build and collect data on how fast their solar car is. Then students can change items to increase the efficiency of the solar panel to increase the overall speed of the solar car.
Students will increase efficiency of the solar panels by using angles. Students are given a solar panel, protractor, and a multimeter. They need to complete a pre- investigation plane before they
Introduction to how a solar panel works. Students get to explore how to power a fan and lights using a solar panel and a motor. Students get to see a diagram of a solar panel and start to make a model
An introduction to Newton's Laws of Motion. Students will utilize two or three options to move a balloon across a tethered line. Students will compare and contrast two different size balloons moving
In this lesson students will be able to make their own slime using chemistry and chemical reactions then use their slime as a model for fractions while reading a short story called, "Slimey is Half."
The students design and test a catapult using simple materials like popsicle sticks and rubber bands. They learn about the history of catapults and also about the physical science concepts related to
Rad Roller Coasters Part 2 comes at the end of our paper roller coaster project. Students will collect data on their coaster and use that to calculate velocity, potential energy and kinetic energy
Students will be learning about the Fibonacci mathematical design pattern. They will learn about the 3 different mathematical Fibonacci sequence designs, vocabulary, and creating their own art