In the United States and elsewhere, there is a dramatic shortage of engineers and technologists. And, unfortunately, these professions often suffer from a lack of awareness among K-12 students. Clearly, educators need to show students the very exciting and lucrative aspects of these fields. Engineering and technology are consistently listed by…

Building hovercraft has proven very popular with the author's engineering students at Knightstown Community High School. The activity uses inexpensive, readily available materials: foam board, a pop-up water bottle cap, a balloon, and hot glue. In this article, the author describes the hovercraft project and how the project provides excellent…

With some simple metal samples and common household liquids, teachers can build wet cell batteries and use them to teach students about batteries and how they work. In this article, the author offers information that is derived from some simple experiments he conducted in his basement workshop and can easily be applied in the classroom or lab. He…

Gliders and sailplanes provide a great launching platform for teaching about technology and scientific principles. Soaring is technological innovation in action, using earth's natural resources for energy and endurance during flight. This article focuses on the basics of soaring, which educators can use to increase excitement and interest in the…

Taking part in the United States Department of Energy's Real World Design Challenge (RWDC), the author describes how four technology education students at Cumberland Valley High School in Mechanicsburg, Pennsylvania, took on the challenge to redesign an aircraft wing, attempting to make it more efficient than one currently in operation. The…

As a renewable source of energy, wind energy will play a significant role in the future. Public, commercial, and privately owned organizations are increasingly finding the value and profits in wind power. Including wind power in a technology and engineering education curriculum teaches students about an important technology that may effect their…

Problem-solving activities let students use knowledge gained in various areas of their academic education. They bring together skills and knowledge from such areas as science, math, art, and English by simulating activities and projects students will encounter later in career and life experiences. A very important feature of most problem-solving…

This article features Advanced Competitive Science (ACS), a two-year course introduced by a science teacher, Joe Pouliot, in 2004 at Trinity High School in Manchester, New Hampshire. More than a traditional STEM (science, technology, engineering, and math) course, ACS harnesses the excitement of robotics competitions to promote student…

This article discusses the 4-H Gateway Academies specifically designed to enhance science, technology, engineering, and math (STEM) skills and knowledge in middle school youth. The innovative summer day camps partnered Project Lead the Way--trained teachers with county 4-H staff from University of Wisconsin-Extension (UW-Extension) Cooperative…

Competitive robotics as an interactive experience can increase the level of student participation in technology education, inspire students to consider careers in technical fields, and enhance the visibility of technology education programs. Implemented correctly, a competitive robotics program can provide a stimulating learning environment for…

When Hurricane Katrina hit New Orleans in 2005, it caused a devastating impact on the Crescent City's public education system. The devastating storm and its aftermath completely wiped out the educational infrastructure of the New Orleans Public Schools, making one of the country's largest metropolitan school districts virtually disappear. Two…

While classroom instruction can and should still be used to teach students the fundamentals of engineering, the key to their ultimate success is learning to use that knowledge in a real-world setting. Out-of-class activities, like the American Society of Civil Engineers' (ASCE) National Concrete Canoe Competition, not only give students a hands-on…

This article describes BEST (Boosting Engineering, Science, and Technology), a hands-on robotics program founded by Texas Instruments engineers Ted Mahler and Steve Marum. BEST links educators with industry to provide middle and high school students with a peek into the exciting world of robotics, with the goal of inspiring and interesting…