Today, schools are introducing STEM education and robotics to children in ever-lower grades. In "Beyond Coding," Marina Umaschi Bers lays out a pedagogical roadmap for teaching code that encompasses the cultivation of character along with technical knowledge and skills. Presenting code as a universal language, she shows how children…

In a kindergarten classroom, exclamations like "Oh no!" may be causes for concern. However, when the students in Mrs. Grabia's classroom shouted "Oh no!" and "Uh oh!" during an engineering-infused 5E lesson, it meant that a persistent little robot had pushed its way out of the fences they had created. It also meant…

Biomedical and robotic technologies are merging to present a wonderful opportunity to develop artificial limbs and prosthetic devices for humans injured on the job, in the military, or due to disease. In this challenge, students will have the opportunity to design a store or online service that specifically dedicates itself to amputees. Described…

All technology educators have favorite lessons and projects that they most desire to teach. Many teachers might ask why teach robotics when there are many other concepts to cover with the students? The answer to this question is to engage students in science, technology, engineering, and math (commonly referred to as STEM) concepts. In order for…

The Calculator Controlled Robots activities are designed to engage students in hands-on inquiry-based missions. These activities address National science and technology standards, as well as specifically focusing on mathematics content and process standards. There are ten missions and three exploration extensions that provide activities for up to…

Discusses a variety of sensors--specifically those of the NASA Mars Pathfinder Lander--and identifies other kinds of sensor technologies used in the industrial and scientific world. Suggests that using sensors to solve technological problems is limited only by one's creativity and imagination. (JOW)

This module introduces machine vision, which can be used for inspection, robot guidance and part sorting. The future for machine vision will include new technology and will bring vision systems closer to the ultimate vision processor, the human eye. Includes a student quiz, outcomes, and activities. (JOW)

Discusses the current status of robots and robotics and the direction robot technology is heading. (JOW)

Describes construction of an Armatron robot arm controlled by a Timex Sinclair 1000 computer, a project suitable as an industrial arts laboratory activity. (SK)

Describes a unit on robotics that includes problem solving, working together, and constructing and programming a robot. Provides students with an opportunity for critical thinking. (JOW)

Discusses the use of games and toys in teaching fractions, independent thinking, and organizational skills to elementary students. Explains the basis of the method in a constructivist approach. (JOW)

This learning activity describes how a robot moves and the systems that power robots. Provides detailed information about XBOT, which uses modified servomotors to power its wheels. (JOW)

A fun design challenge that can be used in the classroom and across the grades is presented in this article. No special tools, hardware, or supplies are needed, only imagination and teamwork. It is a fun exercise that illustrates technology education principles. This design challenge is a mirror on the world, very similar to how projects are…

Provides insight into the exciting future of robotics. Includes a student quiz and possible student outcomes. (JOW)

Introduces a project for elementary school students in which students build a robot by following instructions and then write a computer program to run their robot by using LabView graphical development software. Uses ROBOLAB curriculum which is designed for grade levels K-12. (YDS)