One-Dimensional Free Body Diagrams with Robots
by Timothy Malan
Summary: Students are coding and observing robots to try and determine all forces acting on the robot.
Materials;
Robots that can be coded to move in different ways.
Laptops to code.
Agenda
The teacher will introduce the concepts of a push and a pull (10 minutes)
The teacher will give students time to connect robots and explore how to make the robot move forward and backward. (20 minutes)
The teacher will then handout the free body diagram handout.
Students will work on adding the codes suggested and discussing all the forces acting on the robot (25 min)
Students will then hypothesize what the motion would be like in a world where no forces would be slowing the robot down. (25 min)
Lesson Plan Link/URL
https://docs.google.com/presentation/d/1l31jOnFq6aKd8DUX7-KtI9bcuTosvBUN/edit?u…Subject Area
Science Physical Science P3: Net Force Technology 4. Innovative Designer 5. Computational Thinker Engineering S2: Apply the Engineering Design Process S5: Apply Technology to Engineering Mathematics Measurement and Data (MD) Number & Quantity (N)
Featured
Off
Related Content
Grades:
4th Grade, 6th Grade, 7th Grade, 8th Grade
In this engaging two part project, we will delve into the world of circuits, 3D modeling using Tinkercad, and hands-on fabrication. By designing and creating your own LED card and pendant, you will
Grades:
6th Grade, 7th Grade, 8th Grade
Students will learn the importance of clear, precise communication by directing a partner to navigate a drone through an obstacle course. This exercise will draw parallels to writing clear and
Grades:
6th Grade, 7th Grade, 8th Grade
This is a lesson designed for Edison Robots. Students will use the EdCreate kit to engineer the robot into an EdTank cotton ball launcher which represents a robot that assists in firefighting