Designing Learning Experiences For Teaching & Assessing The CDIO Skill Hypothesis Testing

Designing Learning Experiences For Teaching & Assessing The CDIO Skill Hypothesis Testing

A. YUEN, S. CHEAH (2012).  Designing Learning Experiences For Teaching & Assessing The CDIO Skill Hypothesis Testing. 12.

The Diploma in Chemical Engineering (DCHE) in Singapore Polytechnic adopted CDIO as the organizing education framework for a major curriculum redesign initiative in 2007. Subsequently, various CDIO skills have been incorporated in specific core modules in the diploma’s three-year curriculum. This paper explains one such integration effort, specifically for hypothesis testing, a key CDIO skill in Section 2.2: Experimentation, Investigation and Knowledge Discovery. From our gap analysis, we find that this skill is most suitably embedded into the bio-processing related modules.

To provide a good understanding of the context of this work, this paper firstly outlines the expanded role of chemical engineers in the area of bio-processing and how the course structure and curriculum has been revised to align with these needs. We emphasize the significance of student competence in being able to formulate, state and test hypothesis in bio-processing work. We explain the need to provide authentic learning experiences to students to facilitate the learning of both the technical subject and soft skills in a fully integrated manner. Specifically the paper documents the work done to integrate hypothesis testing into a Year 2 core module entitled Bioanalytics. Other CDIO skills (e.g. teamwork, communication) are also integrated where appropriate.

We explained important learning points from previous practices in the module, which clearly communicated to us that we need to do more if we want our students to master this important skill. This paper also describe the re-designing of learning tasks based on real-world scenarios that provide for an authentic learning experience and aligns with the intended learning outcomes. We then present the survey of our students’ learning experience in this new approach. The results are highly encouraging as they show that the students feel they are well prepared with regards to hypothesis writing and testing.

In conclusion, several challenges faced when executing the change initiative and key learning points from the first author’s self-reflection, who is relatively new to the teaching profession, are shared together with ideas for further improvement of the coverage of “Experimentation, Investigation and Knowledge Discovery” in the DCHE curriculum.

(NOTE: Singapore Polytechnic uses the word "course" to describe its education "programs". A "course" in the Diploma in Chemical Engineering consists of many subjects that are termed "modules"; which in the universities contexts are often called “courses”.)

 

Authors (New): 
Aaron W.P. YUEN
Sin-Moh CHEAH
Pages: 
12
Affiliations: 
Singapore Polytechnic, Singapore
Keywords: 
Bioprocessing
hypothesis testing
Curriculum integration
Year: 
2012
Reference: 
Cheah, S.M., “Using CDIO to Revamp the Chemical Engineering Curriculum”, 5th International CDIO Conference, June 8-10, 2009, Singapore. : 
Cheah, S.M. and Sale, D., “Sustaining Curriculum Innovation: The Diploma in Chemical Engineering Experience”, 6th International CDIO Conference, June 14-18, 2010, Montreal, Canada. : 
Zukoski C,, Armstrong B. and Rousseau, R., “Discipline at a Cross Roads”, Report of the Chemical Engineering Leadership Workshop, July 2002: 
Cobb Jr. J.T, Patterson G.K., Wickramasinghe S.R., “The Future of Chemical Engineering - An Educational Perspective”, Chem. Eng. Progress, Vol 103, No.1, 2007: 
Gyamerah M. and Irvin W. Osborne-Lee I.W., “Introduction to Biotechnology and Bioprocess Engineering – A Course for the Chemical Engineering Curriculum”, AIChE Annual Meeting, October 30 - November 4, 2005, Cincinnati, Ohio.: 
Preston C., Briedis D. and Worden R.M., “Training Chemical Engineers in Bioprocessing”, Proceedings of the 2001 American Society for Engineering Education Annual Conference & Exposition, Albuquerque, NM, June 24-27, 2001 : 
Chisti Y., “Process and Plant Design in Biochemical Engineering Education”, Eur. J. Eng. Ed., 2000, Vol. 25, No. 2, pp165–17. : 
Charaniya, S., Hu, W.S. and Karypis, G., “Mining Bioprocess Data: Opportunities and Challenges”, Trends in Biotechnology, Dec 26 (12), 2008, pp.690-9. : 
Romeu, J.L., “Teaching Engineering Statistics to Practicing Engineers”, 7th International Conference on Teaching Statistics, July 2-7, 2006, Salvador, Bahia, Brazil.: 
Drougas, A. and Harrington, S., “Using VITA Service Learning Experiences to Teach Hypothesis Testing and p-value Analysis”, Journal of Instructional Pedagogies, Vol.6, September, 2011.: 
Evangelista, F. and Hemenway, C., “The Use of Jigsaw in Hypothesis Testing”, paper presented at the 2nd International Conference on the Teaching of Mathematics at the Undergraduate Level, Hersonissos, Crete, Greece, July 1-6, 2002: 
Shuler, M.L., “Unsolved Problems in Biomolecular Engineering”, Symposium held in conjunction with Ohio State University’s CHE 100th Anniversary; April 24-25, 2003. : 
Sale, D. and Cheah, S.M., “Writing Clear Customized Learning Outcomes with Key Underpinning Knowledge”, 4th International CDIO Conference, June 16-19, 2008, Ghent, Belgium. : 
Felder R.F. and Brent R., “Designing and Teaching Courses to Satisfy the ABET Engineering Criteria”, J. of Engrg. Education, 92 (1), 7-25, 2003. : 
McKenzie, A. D., Morgan, C. K., Cochrane, K. W., Watson, G. K. and Roberts, D. W., “Authentic Learning: What is it, and What are the Ideal Curriculum Conditions to Cultivate It In?”, Proceedings of the 25th HERDSA Annual Conference, July 7-10, 2002, pp 426 – 433, Perth, Australia. : 
Stein, S., Isaacs, G., and Andrews, T., “Incorporating Authentic Learning Experiences within a University Course”, Studies in Higher Education, 2004, pp. 239 - 258. : 
Windham, C., “Why Today’s Students Value Authentic Learning”, Educause Learning Initiative Paper 9, 2007 : 
Chua P.H., Cheah S.M. and Mark N.S., “CDIO Experience for New Faculty: Integrating CDIO Skills into a Statistics Module”, 7th International CDIO Conference, June 20-23, 2011, Copenhagen, Denmark. : 
Crawley, E.F., Malmqvist, J., Ostlund, S. and Brodeur, D.R., Rethinking Engineering Education: The CDIO Approach, Springer, New York, 2007 : 
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