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A SOFTWARE FOR DEVELOPING QUANTITATIVE CRITICAL THINKING BY CHEMICAL ENGINEERING STUDENTS
National University of Singapore (SINGAPORE)
About this paper:
Appears in: INTED2019 Proceedings
Publication year: 2019
Page: 9894 (abstract only)
ISBN: 978-84-09-08619-1
ISSN: 2340-1079
doi: 10.21125/inted.2019.2466
Conference name: 13th International Technology, Education and Development Conference
Dates: 11-13 March, 2019
Location: Valencia, Spain
Abstract:
Critical thinking is an important component of many medium-complexity and high-complexity jobs in various industries. It is also an important life-skill that is valuable to the individual as well as the workforce at large. Despite the importance and interests ascribed to this life-skill by governments, employers and educators, the teaching of critical thinking is seldom infused explicitly into the curriculum of an undergraduate programme. Based on the result of a covert pedagogical experiment conducted on second-year Chemical Engineering students enrolled in a core module at the National University of Singapore, an important gap in engineering education in helping students develop higher order thinking skills was apparent. Engineering graduates may not be adequately equipped with the ability to apply critical thinking within the engineering domain and towards quantitative evaluation of engineering systems, referred to as quantitative critical thinking. The approach of repeated practice was applied in this pedagogical project to develop an intervention for enhancing quantitative critical thinking skills by Chemical Engineering students. The intervention is in the form of a software, referred to as a Quantitative Critical Thinking (QCT) software, developed using the Matlab programming language. This software generates detailed calculation steps to typical engineering design problems encountered by Chemical Engineering students that are imperfect. In other words, the engineering design presented by the QCT software for any given design problem will contain weaknesses, flaws or even errors. Students utilized the software to practice identifying weaknesses, flaws and errors in design calculations and then derived better or correct designs by applying concepts and knowledge acquired in the module. The extent of achievement of the intended learning outcome was measured quantitatively by comparisons of performances in the final examination between students who have and those who have not utilized the QCT software to apply a repeated practice approach towards their learning of quantitative critical thinking.
Keywords:
Quantitative Critical Thinking, Technology Enhanced Learning, Repeated Practice.