Nowadays, children and teenagers use technology products in an increasingly passive way. As simple consumers they cannot benefit from the opportunities of designing technology, which has a learning value. Educational Robotics (ER) programs are particularly effective in delivering contents of difficult disciplines: they can re-establish a balance…

In 1969, Seymour Papert invented the first educational robot called a Turtle. It was an addition to the computer language Logo, which he'd designed in 1965 specifically for educating children. Papert did not simply invent some technology, he offered a revolutionary way of educating children. He gave teachers practical tools to realise…

Taking place within the Science Through Technology-Enhanced Play (STEP) design-based research project, this paper describes how first- and second-grade students use their bodies to imaginatively become microscopic particles inside of a collaborative simulation of state change (e.g., liquid to gas) and within two distinct play spaces: a…

As a problem-solving approach, design thinking (DT) emphasizes iterative, user-focused designing. While DT is being readily adopted into education, little is known about how educators integrate DT across curricula. To address this question, we collaborated with a tech-ed industry partner and a focus group of experienced educators to assess…

Remote learning has been an increasingly growing field in the last two decades. The Internet development, as well as the increase in PC's capabilities and bandwidth capacity, has made remote learning through the internet a convenient learning preference, leading to a variety of new interfaces and methods. In this work, we consider a remote…

This report explores the first iteration of a teacher professional development courselet grounded in constructionist theory and activities. This online teacher professional development (oTPD) courselet provided opportunities for teachers to engage in just-in-time, ongoing TPD within a social networking site for educators. The topic of the oTPD was…

Discussion of the development of robots and their use in industry and education emphasizes their potential as instructional tools. Current use in elementary and secondary schools and with gifted students is described; hardware systems are explained; teaching strategies are discussed; and guidelines are presented to improve robotic literacy…

This document contains suggestions for integrating the elements of robotics into technology education courses from elementary through junior high and high school levels. Eighteen courses into which robotics instruction can be incorporated are listed. They include the following: exploring industry and technology, introduction to industrial and…

This training package is designed for use by staff of the U.S. Bureau of Apprenticeship and Training who are participating in a course dealing with apprenticeship in the future. Addressed in the individual units of the course are the following topics: employment trends of the future (computers, robotics, communications, growth and declining…

This curriculum guide is designed to assist industrial arts teachers, counselors, and administrators in improving instruction in the areas of electricity and basic electronics. Included in the first part of the guide are a course flow chart, a course description, a discussion of target grade levels and prerequisites, course goals and objectives,…

This guide is designed for use in helping junior and senior high school students explore the field of electricity and electronics as a potential career area. Included in the manual are the following materials: definitions, a key to the organization and numbering code and symbols used in the lists of objectives, lists of general and program…