This lesson is an activity to show how projectile motion and many other motions in nature fallow a parabolic curve. Students will manipulate that knowledge and analyze data using small play tanks to
Students will create a STEM Cardboard challenge after listening to the story Not a Box by Antoinette Portis.
This is lesson 4 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 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
This lesson takes two days or class periods since it is an exploration of energy in the lives of the students. Day 1 involves 8 different scenarios. Day 2 is an exploration of how efficient two
This is the second part of two lessons on density. This lesson is on the density of liquids following the first lesson on density of solids. The lesson is a lab on layering several liquids with
This lesson is on density of solids. It's one lesson of two. This lesson should be first since it introduces density but it can be revised and used after the density of liquids. The lesson has a short
Students further explore the concept of energy and are introduced to the art of scientific argumentation. They engage in a practical inquiry to address the central question: "How can we determine if
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
This lesson combines ELA (reading and discussing the story), engineering (design a balloon with materials given and attach the balloon to an EdBot), and technology (code an EdBot to run the parade
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
Just like many things we do in our lives, pumpkin growth and coding follow a pattern. Children will learn the life cycle of a pumpkin and fill in a practice page that talks about the pumpkin's life
In this activity students work together to create a model to show the relationship between plants and animals and where they live using play doh or clay. Students will explore things around them and
In this STEM Challenge, students add materials to help their rock roll better. Then, they examine how to push and pull their rock.
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 research what techniques engineers use to help a building withstand an earthquake and implement two researched strategies into a cardboard structure that will survive a medium sized
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.
Students will discover the different facets of building a business including product and market research, marketing, cost and profit analysis, product design and more.
Students will discover the many different facets of building a business including product research, marketing, finances, cost and profit analysis, product design and more.
This lesson provides a quick and easy to understand introduction to Binary code. In this lesson, we focus on binary numbers whereas, subsequent lessons can focus on the binary alphabet.
Students will use the engineering design process to complete 3 challenges. Each challenge gathers data and collects their engineering changes necessary to complete the challenge.
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