Displaying all 7 results
- Conference Session
- Perspectives for Women Faculty
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Stacy Birmingham, Grove City College
- Tagged Divisions
- Women in Engineering
accomplished in the past year and what I wanted to accomplish in thenext three years. Only occasionally did I meet with my department chairs over the years todiscuss my career, however. I also started my faculty career before the implementation of aformal faculty mentoring system, and did not have the friendly advice of a trusted colleague toguide me, nor did I actively seek out such advice.I was in a quandary: according to the plan—never articulated in the academy, but generallyunderstood by all—everything was fine. Like Balboa upon finding the Pacific Ocean, rather thanjoy, I was professionally void. While large-scale research was fun and rewarding, I found that itlacked a certain satisfaction. Perhaps it was that as projects get bigger, one moves
- Conference Session
- Foster Excellence
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Jacqueline Fairley, Georgia Institute of Tehnology; Leyla Conrad, Georgia Institute of Technology; Gary May, Georgia Institute of Technology
- Tagged Divisions
- Minorities in Engineering
Minority Undergraduates: A Longitudinal Study of Program Outcomes 1986-1996. Council on Undergraduate Research Quarterly, 2000: p. 114-119.2. Morley, R., J. Havick, and G. May, An Evaluation of the Georgia Tech Summer Undergraduate Program of Research in Electrical Engineering for Minorities. Journal of Engineering Education, 1998. 87(3): p. 321-325.3. Good, J., G. Halpin, and G. Halpin, A Promising Prospect for Minority Retention: Students Becoming Peer Mentors. The Journal of Negro Education, 2000. 69(4): p. 375-383.4. May, G., Advising and Mentoring. 2006, Georgia Institute of Technology: Atlanta.5. Watford, B., et al. Lessons Learned: Implementing a Large-Scale Peer Mentoring Program. in
- Conference Session
- Capstone Design & Project Courses
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Wayne Walter, Rochester Institute of Technology; Jeffrey Webb, Rochester Institute of Technology; Mark Smith, Rochester Institute of Technology; Elizabeth DeBartolo, Rochester Institute of Technology; Margaret Bailey, Rochester Institute of Technology; George Slack, Rochester Institute of Technology
- Tagged Divisions
- Multidisciplinary Engineering
inMechanical Engineering, students in the Sustainable Design Minor, or taking the public policyminor from the College of Liberal Arts, etc. Projects include small and large scale energyproduction and utilization systems including alternate energy systems, projects for third worldapplication, and projects which are focused on product stewardship issues such as recycling, re-use, and re-manufacturing. Students in the following programs will likely be interested in thisproject track: Electrical Engineering, Industrial and Systems Engineering, MechanicalEngineering, Mechanical Engineering / Energy & the Environment Option, Minor in SustainableDesign.Printing and Imaging Systems Technologies TrackThese projects should be of interest to students doing a
- Conference Session
- ChE: Safety, Sustainability, and Global Opportunities
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Allyson Frankman, Brigham Young University; Jacob Jones, Brigham Young University; W. Vincent Wilding, Brigham Young University; Randy Lewis, Brigham Young University
- Tagged Divisions
- Chemical Engineering
students themselves, and they wanted the mentors to play a moreactive role. The class was initially designed to be a “hands-off” environment for the professorsand mentors, giving the students the opportunity to pro-actively determine internal deadlines, thedetails of the problems and ways to find them. The mentors and professors were availablealways, but students had to actively seek them out. This structure is something that students arenot used to, and had a hard time adjusting to.Key lessons learned to be implemented in next years class, are that more structure and classinstruction upfront are needed. This will give students the “tool-kit” necessary to solve open-ended problems. In addition, mentors will establish overall project timelines and
- Conference Session
- Engineering Professional Development for K-12 Teachers – II
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Patricia Carlson, Rose-Hulman Institute of Technology; Dale Bremmer, Rose-Hulman Institute of Technology
- Tagged Divisions
- K-12 & Pre-College Engineering
national attention. Some include indices that correlate resources to specific state ornational academic standards. Most improve convenience and accessibility by at least an order ofmagnitude over conventional Internet searches.Our purpose here is to recount how program assessment and lessons learned over three years offielding the portal have helped us to identify PRISM’s core competencies for transforming middleschool STEM teaching and learning.1.0 PRISM: A Portal with a PurposePartnerships between K-12 and collegiate institutes have proliferated over the last two decades.Add the power of the Internet, and you have many vertical alliances hoping to transformeducation. We believe PRISM represents one of the best of its category. PRISM addresses
- Conference Session
- Environmental Engineering Curricula II
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Elizabeth Eschenbach, Humboldt State University; Jami Montgomery, WATERS Network - CLEANER Project Office; James Johnson, Howard University; Chris Brus, University of Iowa; Dan Giammar, Washington University; Patricia Carlson, Rose-Hulman Institute of Technology; Bette Grauer, McPherson High School; Liesl Hotaling, Stevens Institute of Technology; Gbekeloluwa Oguntimein, Morgan State University; Steven Safferman; Tim Wentling, National Center for Supercomputing Applications
- Tagged Divisions
- Environmental Engineering
, 20 peer-reviewed journal articles, 15 conference proceedings, and over 40 conference presentations/poster sessions. He is an associate editor for the ASCE Journal of Environmental Engineering and a member of the NSF CLEANER (Collaborative Large-Scale Engineering Analysis Network for Environmental Research) Education Planning Committee.Tim Wentling, National Center for Supercomputing Applications Dr. Tim L. Wentling is a Professor of Information Science in the Graduate School of Library and Information Science and a Senior Research Scientist at the National Center for Supercomputing Applications at the University of Illinois. Dr. Wentling is the leader of the Knowledge and Learning Systems Group
- Conference Session
- ChE: Innovations in the Classroom
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Thomas Marlin, McMaster University
- Tagged Divisions
- Chemical Engineering
here with reference to these three categories.2.1 Learning Goals for the Design CourseDesign plays a central role in engineering education, giving a capstone experience to integrateand apply prior learning to a large-scale project. A typical process design course achieves a setof learning objectives, including the following components. Attitudes Knowledge Skills • Design is goal oriented, • Process synthesis • Defining and the result must satisfy a • Flowsheeting completing an open- student-prepared • Engineering economics ended project specification • Equipment sizing and