Teaching Mechanics for Real. A Different Approach for Civil Engineers

Teaching Mechanics for Real. A Different Approach for Civil Engineers

S. Loyer (2013).  Teaching Mechanics for Real. A Different Approach for Civil Engineers. 10.

In most traditional engineering schools in Chile, Mechanics is a fundamental course taught by physics professors, using a theoretical approach which often disregards what civil engineers do. This usually creates a gap in a student’s learning process, who must later apply these theoretical fundamentals in structural courses, which are usually taught by civil engineers. Therefore, students must be re-taught to think about mechanics in an appropriate context, and, by doing so, these fundamentals finally make sense to them.

This paper describes the experience of a mechanics course for Civil Engineering students at UCSC under a CDIO approach. This initiative considers several CDIO standards, but mainly active learning (CDIO Standard 8), context of civil engineering (CDIO Standard 1), hands-on activities for building systems and structures (CDIO Standard 6), among others. This course employs several active learning strategies, of which PBL (problem based learning) is the center piece. But what differentiates the most this initiative from others that also use PBL is the type of problems employed. We use more complex-real cases, which are a way of taking CDIO Standard 1 to a different level. By the end of the course, students are highly motivated, use critical thinking and show higher proficiency levels on standard and higher learning outcomes as well as other skills.

Proceedings of the 9th International CDIO Conference, Massachusetts Institute of Technology and Harvard University School of Engineering and Applied Sciences, Cambridge, Massachusetts, June 9 – 13, 2013.

 

Authors (New): 
Solange Loyer
Pages: 
10
Affiliations: 
Universidad Católica de la Santísima Concepción, Chile
Keywords: 
Active learning
Problem based learning
Project based learning
Experiential Learning
Engineering education
Problem Solving Workshops (PSW)
engineering context
Year: 
2013
Reference: 
Crawley, E., et al., “Rethinking Engineering Education: The CDIO Approach”. Springer Sciences + Business Media LLC, New York, 2007. : 
Meza J., Carrasco C., Loyer S., Morales J., García F., “Information Technologies as a support of the Teaching Learning Process: A Practical Experience.”, REXE: Revista de estudios y experiencias en educación, Volumen 2 (N° 3), 2003, 135-147.: 
Kolb D.A., “Experiential Learning”. Prentice-Hall, Englewood Cliffs, NJ, 1984: 
Zull J.E., “The art of changing the brain: Enriching teaching by exploring the biology of learning”. Stylus Publishing, LLC., Sterling Va, 2002. : 
Loyer S., et al., “A CDIO approach to curriculum design of five engineering programs at UCSC”, Proceedings of the 7th International CDIO Conference, Technical University of Denmark, Copenhagen, June 20-23, 2011.: 
Rodríguez L., “The Theory of Significant Learning”, Proceedings of the First Int. Conference on Concept Mapping, Pamplona, 2004, 535-544. : 
Tufello I., “Strategies of private learning: a theory and its field application“, Pensamiento Educativo. Revista de Investigación Educacional Latinoamericana, Volumen 16 (N° 1), 115-119, 1995.: 
Schmeck K. R., “Improving Learning by Improving Thinking”, Educational Leadership, Volume 38 (N° 5), 1981, 384-385.: 
Muñoz M., et al., “Active Learning in first-year engineering courses at Universidad Católica de la Santísima Concepción, Chile”, Proceedings of the 8th International CDIO Conference, Queensland University of Technology, Brisbane, July 1-4, 2012.: 
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