As the field evolves over time, shifting from Industrial Arts, to Technology Education, to Engineering and Technology Education (ETE), so too does what teachers teach, how they teach, and the projects that they use. Projects that worked 10 years ago might not hold up today and, as reflective practitioners, they need to be able to align the current…

This paper describes a relatively new active learning approach--Design Thinking--and its adoption in two comparative politics courses. I draw on my experience using Design Thinking in political science courses to offer instructors another pedagogical tool in the active learning toolkit. I outline the rationale for adopting a Design Thinking…

Project-based learning has been shown to be an effective pedagogical strategy that motivates students and thus promotes learning. In this article we describe a project-based unit centered on the physics of solar cookers (Fig. 1 and 3). Our goal was to elevate the solar cooker from a summer camp activity to a college-level project that could be…

Building a website allows students to find and evaluate resources, pose and answer scientific questions, and connect class content to real-world problems and possible solutions. Writing explanations for a particular audience, instead of only the teacher, requires students to state concepts clearly, leading to increased comprehension. Finding the…

As U.S. public schools continue to diversify, it is necessary for educators to find ways to meet all students' needs in the classroom. By beginning small, with some of the teaching ideas presented within this article such as learning about and supporting your students' cultural competencies and integrating students' backgrounds and interests into…

As solar energy becomes increasingly affordable, many schools are considering installing new solar power systems. In this article, the authors present Solarize Your School, an engineering project that gives students the opportunity to design and evaluate solar power solutions for their own schools. This STEM project requires students to learn and…

With the introduction of "Next Generation Science Standards" ("NGSS"), teachers have been called to find meaningful and engaging ways to teach science content while incorporating engineering practices and, to a lesser extent, computing and computational thinking. The task becomes even more complex when they also have to…

The addition of the arts to STEM education, now known as STEAM, adds a new dimension to problem-solving within those fields, offering students tools such as imagination and resourcefulness to incorporate into their designs. However, the shift from STEM to STEAM has changed what it means for students to learn within and across these disciplines.…

Electronic textiles (e-textiles)--fabrics embedded with electrical or electronic components--offer a new model for teaching this content. E-textiles also engage students in programming and engineering design through nontraditional projects and materials. This article describes a four-week electricity curriculum using three e-textiles projects that…

What if you could challenge your second graders to design an outdoor STEM classroom with a butterfly garden, birdbath, and sundial? With this volume in the "STEM Road Map Curriculum Series," you can! "Investigating Environmental Changes" outlines a journey that will steer your students toward authentic problem solving while…

The Family and Consumer Science (FCS) Department at Charles F. Patton Middle School in Kennett Square, Pennsylvania, planted a garden to provide students with an organic horticulture experience. Although the garden provided the FCS Department space to grow plants, Patton Middle School FCS teachers Betsy Ballard and Kim Hislert believed it wasn't…

Clothing is influenced by many factors, trends, and social happenings. Much of what is worn today had utilitarian roots in the past. In the activitiy presented in this article, students will have the opportunity to redesign clothing for new trends, in this case, the explosion of handheld electronic devices.

In the technology-rich twenty-first century, students are required to actively construct their knowledge and collaboratively engage in problem solving by using such skills as adaptability, communication, self-management, and systematic thinking. In accordance with this necessity, science, technology, engineering, and mathematics (STEM) education…

Being able to dive and breathe underwater has been a challenge for thousands of years. In 1980, Fuji Systems of Tokyo developed a series of prototype gills for divers as a way of demonstrating just how good its membranes are. Even though gill technology has not yet reached the point where recipients can efficiently use implants to dive underwater,…

This paper describes how an intelligent chip architecture has allowed a large cohort of undergraduate (UG) students to be given effective practical insight into integrated circuit (IC) design by designing and manufacturing their own ICs. To achieve this, an efficient chip architecture, the "Superchip," was developed, which allows multiple student…