Now More Than Ever: The Need for a Common Engineering Core Curriculum
- Conference
- Location
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San Antonio, Texas
- Publication Date
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June 10, 2012
- Start Date
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June 10, 2012
- End Date
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June 13, 2012
- ISSN
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2153-5965
- Conference Session
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Making Headway: Two-year/Four-year Curriculum Alignment and Also U-G Research
- Tagged Division
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Two Year College Division
- Page Count
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9
- Page Numbers
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25.983.1 - 25.983.9
- DOI
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10.18260/1-2--21740
- Permanent URL
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https://peer.asee.org/21740
- Download Count
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374
Paper Authors
Michael G. Jenkins P.E. California State University, Fresno
Michael G. Jenkins is a professor in mechanical engineering and Former Dean of Engineering at California State University, Fresno. He is an advocate of the active learning and teaching philosophy per ABET EC2000. Jenkins is a registered professional engineer in Washington and is actively involved through leadership roles in national/international committees such as ASTM, ASME and ISO. He is also an experienced ABET Program Evaluator (PEV) for general engineering and mechanical engineering. Jenkins received his B.S.M.E. from Marquette University, his M.S.M.E. from Purdue University, and his Ph.D. from the University of Washington. He worked at PACCAR Technical Center as an R&D engineer and at Oak Ridge National Laboratory as a development staff member. He was also faculty and associate chair at University of Washington, Seattle, and professor and chair at University of Detroit Mercy before starting his position as faculty and dean at CSU, Fresno. His research and teaching interests include characterization of advanced materials (e.g., ceramics), experimental mechanics, data base development, cumulative damage mechanics, and probabilistic design and reliability.
Walter V. Loscutoff California State University, Fresno
Walter V. Loscutoff is a professor and Former Chair of mechanical engineering as well as Former Associate Dean of Engineering at California State University, Fresno. Loscutoff received his B.S.M.E., M.S.A.E., and Ph.D. from the University of California, Berkley. He worked at Flow Industries, Inc., as Executive Vice President & COO of Flow Research, Inc.; Vice President and General Manager of FlowDril Corporation; Manager of Research and Technology Division, at Pacific Northwest National Laboratory through Battelle Memorial Institute; Associate; Project Manager; Program Manager, and Section Manager and Rocketdyne: and Research Engineer. He was also Assistant Professor at University of California, Davis, and Adjunct Associate Professor at Washington State University before starting his position as faculty at CSU, Fresno. His research and teaching interests include advanced materials, alternate energy, systems analysis, and project management.
Thomas Nguyen
Abstract
Now More Than Ever: The Need for a Common Engineering Core CurriculumFor decades, the hallmark of engineering educational programs was a “common corecurriculum” that provided all engineering students, regardless of engineering discipline, with afoundation of standard, lower-division courses in mathematics, science and engineeringtopics. Because these core courses (e.g., calculus, differential equations, physics, chemistry,drafting, freshman design, statics, dynamics, strength of materials, thermodynamics,programming, circuits, etc.) were common to all disciplines, students and institutions wereblessed with flexibility (i.e., faculty could teach a range of lower-division courses in addition tospecialized upper-division courses and students could spend the first two years finalizing theirchoice of major without jeopardizing academic progress) and portability (i.e., students couldtransfer credit for common core courses between community college pre-engineering programsand/or university lower/upper division programs). Over the past decade or so, increasingdivergence of lower-division requirements among different four-year institutions and among thedifferent fields of engineering, has led to fading of the common engineering core. This paperaddresses the factors that have led to the gradual erosion of the lower-division core curriculumand the effects that these curriculum changes have on students, faculty, and pre-engineeringprograms. In addition, the paper explores the implications on the future of the engineeringeducational system, the cost to taxpayers, and the system’s effectiveness at producing theengineers that are needed to ensure the viability of the engineering profession. The need for acommon engineering core curriculum is critical now more than ever.
Jenkins, M. G., & Loscutoff, W. V., & Nguyen, T. (2012, June), Now More Than Ever: The Need for a Common Engineering Core Curriculum Paper presented at 2012 ASEE Annual Conference & Exposition, San Antonio, Texas. 10.18260/1-2--21740
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