Development and Evaluation of Fishbone-Based Advanced Computational Thinking (FACT) Pedagogy: A Teacher-Student Collaborative Learning Environment in Engineering and Science Education

Autor/inn/en	Gopinath, B.; Santhi, R.
Titel	Development and Evaluation of Fishbone-Based Advanced Computational Thinking (FACT) Pedagogy: A Teacher-Student Collaborative Learning Environment in Engineering and Science Education
Quelle	In: Higher Education for the Future, 8 (2021) 1, S.108-122 (15 Seiten)Infoseite zur Zeitschrift PDF als Volltext Verfügbarkeit
Zusatzinformation	ORCID (Gopinath, B.)
Sprache	englisch
Dokumenttyp	gedruckt; online; Zeitschriftenaufsatz
ISSN	2347-6311
DOI	10.1177/2347631120970177
Schlagwörter	Problem Solving; Thinking Skills; Computation; Visual Learning; Blended Learning; Engineering Education; Science Instruction; Cooperative Learning; Biochemistry; Biomedicine; Radiology; Instructional Effectiveness; College Science; College Students + Suchen Sie Ihr Suchwort? Problemlösen; Denkfähigkeit; Visual education; Visuelles Lernen; Ingenieurausbildung; Teaching of science; Science education; Natural sciences Lessons; Naturwissenschaftlicher Unterricht; Kooperatives Lernen; Biochemie; Biomedizin; Radiologie; Unterrichtserfolg; Collegestudent
Abstract	In this article, Fishbone-based advanced computational thinking (FACT) pedagogy is proposed by fusing fishbone pedagogy and computational thinking pedagogy for enhancing teaching-learning process while teaching engineering and science courses, for engineering and science students respectively. The proposed FACT pedagogy has been implemented using the concept of X-ray machine in biomedical instrumentation course and biomolecules, in biochemistry course. Using fishbone approach, various components of X-ray machine in biomedical course and the components of biomolecules in biochemistry course are visually explained as ribs and riblets of a fishbone diagram, without coining the keywords X-ray and biomolecules in an engineering institution and science institution respectively. Finally, the targeted concept is arrived and explained. Similarly, the same concepts of X-ray and biomolecules are coined among students and they are asked to divide or decompose the concepts into sub-concepts separately. To implement and evaluate the proposed pedagogy, an engineering institution and a science institution have been selected and evaluation results have been published in this article. In this pedagogical approach, the same complex concept is taught as a backward thinking by the teacher using fishbone pedagogy and forward thinking by the students using computational thinking pedagogy. This combined approach helps students to understand any complex concept in science courses. Also, it helps the teachers to easily convey and embed the same among the student community while teaching science courses. (As Provided).
Anmerkungen	SAGE Publications. 2455 Teller Road, Thousand Oaks, CA 91320. Tel: 800-818-7243; Tel: 805-499-9774; Fax: 800-583-2665; e-mail: journals@sagepub.com; Web site: http://sagepub.com
Erfasst von	ERIC (Education Resources Information Center), Washington, DC
Update	2024/1/01