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Alarmed by the tendency of engineering programs to hemorrhage undergraduates, at a time when the White House has called for an additional million degrees in science, technology, engineering and math fields-known as STEM-education researchers here at the annual meeting of the American Association for the Advancement of Science proposed ways to improve the numbers. At a symposium on engineering education, one group outlined a broad revamping of curriculum, while another proposed more modest changes to pedagogy.

Why College Students Leave the Engineering Track http://economix.blogs.nytimes.com/2012/01/20/why-students-leave-the-engineering-track/ Actually another study of science students asked the students why they were transferring or dropping out of science majors, and the number one reason cited was poor teaching: http://www.science20.com/news_releases/6_researchers_take_science_education "when college students abandon science as a major, 90 percent of them do so because of what they perceive as poor teaching; and, among those who remain in the sciences, 74 percent lament the poor quality of teaching" via http://edtechdev.wordpress.com/2009/08/31/50-examples-of-the-need-to-improve-college-teaching/

Why don't even the brightest students truly grasp simple science concepts? These video programs pick up on the questions asked in the Private Universe documentary and further explore how children learn. Based on recent research, as well as the pioneering work of Piaget and others, Minds of Our Own shows that many of the things we assume about how children learn are simply not true. For educators and parents, these programs bring new insight to debates about education reform. 1. Can We Believe Our Eyes?  Why is it that students can graduate from MIT and Harvard, yet not know how to solve a simple third-grade problem in science: lighting a light bulb with a battery and wire? Beginning with this startling fact, this program systematically explores many of the assumptions that we hold about learning to show that education is based on a series of myths. Through the example of an experienced teacher, the program takes a hard look at why teaching fails, even when he uses all of the traditional tricks of the trade. The program shows how new research, used by teachers committed to finding solutions to problems, is reshaping what goes on in our nation's schools

The Engineering Design Process: 1.            Identify a need 2.            Establish requirements 3.            Conduct research 4.            Brainstorm possible approaches 5.            Pick best approach 6.            Develop, design and build prototypes 7.            Test to see if the design works 8.            Begin production         

Review of Literature on Remote and Web-based Science Labs

Science, math and engineering departments at many universities are abandoning or retooling the lecture as a style of teaching, worried that it's driving students away.

Instructional consultations have consistently been shown to have a positive impact on teaching, and though one factor that influences their impact is the kind of data that guide them, little research has rigorously analyzed this aspect of the consultation. In this study, instructional consultants used either data from a midterm student feedback (MSF) session, videotaped class sessions or student ratings data as the basis of a consultation. The impact of consultation on the instructor's teaching was then assessed. Our research shows that the kind of data used in consultations has a significant influence on the impact of the consultation. In general, faculty who received MSF-based consultations had greater gains in student ratings, reported more detailed changes in teaching, and rated most aspects of the consultation at least as high as faculty who had not received such consultations. During an MSF, the instructional consultant observes part of a regular class. Afterwards, the instructor leaves the room, and the consultant confers with students about what is going well and what changes would improve their learning. The consultant prepares a summary report for a follow-up debrief with the instructor. Findings from this study also demonstrate that the instructional consultant plays a key role in assisting the faculty member to both interpret the available data and to identify strategies for teaching improvement. Drawing on their experience and professional judgment, instructional consultants had the ability to quickly direct faculty attention to specific teaching practices and avoid overwhelming the instructor with too much information.