New Curriculum Reforms in a Geological Engineering Program

Recent curriculum revisions to the geological engineering program at Queen's University at Kingston in Canada have led to a more streamlined program incorporating modern engineering education practices. Following a carefully designed program philosophy, the emphasis in the core curriculum chang...

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Bibliographic Details
Published in:Journal of engineering education (Washington, D.C.) D.C.), 2001-10, Vol.90 (4), p.721-728
Main Authors: Lee, James K. W., Hanes, John A., Remenda, Victoria H.
Format: Article
Language:English
Subjects:
Course Content
Curriculum Design
Engineering Education
Research Methodology
Science Curriculum
Undergraduate Study
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Summary:Recent curriculum revisions to the geological engineering program at Queen's University at Kingston in Canada have led to a more streamlined program incorporating modern engineering education practices. Following a carefully designed program philosophy, the emphasis in the core curriculum changes through the entire four‐year program in three progressive stages, from the acquisition of knowledge, to integration and analysis, and finally to synthesis and design. This is reflected in an increased concentration of mathematics and basic science courses in first and second year, engineering science courses in third year, and engineering design courses (capstone courses) in fourth year. Two tools which concisely illustrate the course curriculum and curriculum content are: (1) the flow sheet, which can contain a wealth of information, such as showing linkages between courses (e.g. how upper‐level courses can build on lower‐level courses through course prerequisites), the timing of various courses, courses taught within the home department (vs. other departments), and courses taught by professional engineers; and (2) the ternary phase diagram, which is a quantitative method of displaying engineering content within individual courses or an entire program and can clearly show patterns and trends in curriculum content with time. Such tools are useful for academic engineering programs which may have to undergo an accreditation review and are readily adapted to any other engineering fields of study. Other engineering elements woven throughout the program include strong interactions with professional engineering faculty, the use of student teams, enhanced communication skills, and exposure to important aspects of professional engineering practice such as engineering ethics and law. To ensure that the curriculum is kept current and relevant, formative evaluation instruments such as questionnaires are used in all years of study, and are also sent to recent graduates of the program. External reviews of the revised program have been positive, indicating that the program goals are being achieved.
ISSN:1069-4730
2168-9830
DOI:10.1002/j.2168-9830.2001.tb00664.x