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
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 plan is about structures that are balanced using tension forces. Students will create their own tensegrity structure that will withstand a predetermined amount of weight. Students will
In this lesson, students explore the foundational concepts of electricity, delving into Ohm's Law and the principles of electric power. Through a series of engaging theoretical and practical exercises
Involving themes of biology, ecology, and conservation, this engineering lesson introduces students to the behavior of immersed bodies within the realm of fluid mechanics. Utilizing the phenomena of
This lesson gives students another real life example of Newton's Second Law of Motion. Students will use force diagrams and Newton's Second Law of Motion to find their apparent weight as they
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
Students determine the period of rotation for the flying pig toy using formulas derived throughout the circular motion unit.
By 2028, NASA plans to send a mission to Mars to retrieve samples collected by rovers and return to Earth. Student teams are challenged to build a rover and design a way to retrieve as much cargo as
Classes will build three different types of rockets, guess which style will have the highest altitude, launch and calculate results based on right triangle math!
This lesson uses a Modeling Instruction approach to experimental design and analysis leading students to develop the graphical and mathematical relationships for accelerated motion, or kinematics.
What will the transportation of the future look like? What types of engineering or technology will vehicles feature? These Physics lessons explore both established and alternative forms of
This is a two-day introductory lab exercise using video analysis to derive the equations that govern projectile motion. It employs elements of Modeling Instruction to engage students in doing science.
This lesson plan describes the different process points of construction of a Truss Bridge and why these bridges are useful. This lesson plan includes objectives, assessments and some samples of Truss
Students will study car barrier engineering in this lesson. They will study how Newton’s Second Law of motion can be applied to determine how to decrease the force of impact during a collision. They
Bridge Design Challenge For this design challenge, each group will build a bridge out of 200 popsicle sticks and 1 bottle of Elmer’s glue. The bridge will span a 12 inch gap between tables. After the
Students use a constant velocity, battery powered vehicle to determine the relationship between position and time. They use their results to determine the formula for speed (change in position/time).
THE PHYSICS BEHIND RC PLANE This lesson plan focuses on the following standards : HS.P3U2.7 Use mathematics and computational thinking to explain how Newton’s laws are used in engineering and
This lesson is useful in a high school Physics or Calculus Class. Students will be matching Distance-Time and Velocity-Time Graphs, sometimes creating their own.