Get ready to engage with some hands-on activities that will illustrate the mechanics of calculating both kinetic and potential energy and unravel the equations for these essential parts of physics.
This lesson is intended to be the second lesson within a series. After the first lesson, exploring the transfer of power within a system, Students utilize this lesson, lesson 2, to explain how and
Students will create a Google slideshow presentation to document their progress through the engineering design process, which includes: researching the science of sound, then creating an instrument
As an intro to Thermal Energy, students are challenged to create a warmer that will keep my coffee warm. Students project will be tested in class, data will be collected, compared, and graphed.
Students use their knowledge from the 2 previous lessons to design, draw blueprints, and build a load bearing bridge.
Students are left stranded on an alien planet and must wait for rescue. In the meantime they have found some valuable resources from a previous space craft crash. Students encounter the aliens and are
Engineers often create small-size models of a new product to test its design. This is especially true with airplanes. Model testing tells engineers how a design responds to different air conditions
Students use large building bricks to practice computational thinking, direction giving and being specific in those directions. This lesson can be completed in one 30-45 minute class session. This is
This lesson compares and contrasts different hydroponic systems and their benefits and setbacks. Then, the plan walks the students through the hands-on activity of creating a Kratky bin for hydroponic
1. Present the project and explain the basic steps that the students will be completing over the next 2 to 3 class periods. • The students will be working and pretending that they work for an