Esther Cascarosa Salillas, Carlos Sánchez-Azqueta, Cecilia Gimeno, C. Aldea
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A varied sample of assessment instruments was used.</p><!--/ Abstract__block -->\n<h3>Findings</h3>\n<p>The results suggest this sequence produces a more significant learning than a more conventional teaching, however there is no increase in the number of students who passed. The students explaining phenomena scientifically, evaluating and designing experiments and making researchable questions and interpreting data and scientific evidence, which are a consequence of the development of scientific knowledge (content, procedural and epistemic). In addition, the students kept motivated by this methodological change and maintained the perception of having achieved the expected learning according to the objectives of the course.</p><!--/ Abstract__block -->\n<h3>Originality/value</h3>\n<p>Until a few years ago, research in the didactics of experimental sciences, and the application in the classroom of the results obtained, was limited to education in non-university stages. The opportunity of this work is to expand knowledge in relation to the application of didactic strategies in physics education at a higher level.</p><!--/ Abstract__block -->","PeriodicalId":45508,"journal":{"name":"Journal of Applied Research in Higher Education","volume":"21 1","pages":""},"PeriodicalIF":1.9000,"publicationDate":"2024-07-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A teaching-learning sequence to develop epistemic thinking in engineering students at master’s educational level\",\"authors\":\"Esther Cascarosa Salillas, Carlos Sánchez-Azqueta, Cecilia Gimeno, C. 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A varied sample of assessment instruments was used.</p><!--/ Abstract__block -->\\n<h3>Findings</h3>\\n<p>The results suggest this sequence produces a more significant learning than a more conventional teaching, however there is no increase in the number of students who passed. The students explaining phenomena scientifically, evaluating and designing experiments and making researchable questions and interpreting data and scientific evidence, which are a consequence of the development of scientific knowledge (content, procedural and epistemic). In addition, the students kept motivated by this methodological change and maintained the perception of having achieved the expected learning according to the objectives of the course.</p><!--/ Abstract__block -->\\n<h3>Originality/value</h3>\\n<p>Until a few years ago, research in the didactics of experimental sciences, and the application in the classroom of the results obtained, was limited to education in non-university stages. 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A teaching-learning sequence to develop epistemic thinking in engineering students at master’s educational level
Purpose
This research work had been a double objective, to help the students achieve the learning outcomes, scientific skills and on the other hand, to develop specific scientific sub-competences, all of these related not only with the conceptual knowledge but also with the knowledge of procedurals and epistemology.
Design/methodology/approach
A didactic sequence has been designed and applied with students of the University Catholique of Louvain (Belgium) in collaboration with teachers from the University of Zaragoza (also researchers in the knowledge areas of Electronics, Applied Physics and the Didactics of Experimental Sciences). Several methodologies were applied thorough the teaching-learning sequence as the flipped classroom is. A varied sample of assessment instruments was used.
Findings
The results suggest this sequence produces a more significant learning than a more conventional teaching, however there is no increase in the number of students who passed. The students explaining phenomena scientifically, evaluating and designing experiments and making researchable questions and interpreting data and scientific evidence, which are a consequence of the development of scientific knowledge (content, procedural and epistemic). In addition, the students kept motivated by this methodological change and maintained the perception of having achieved the expected learning according to the objectives of the course.
Originality/value
Until a few years ago, research in the didactics of experimental sciences, and the application in the classroom of the results obtained, was limited to education in non-university stages. The opportunity of this work is to expand knowledge in relation to the application of didactic strategies in physics education at a higher level.
期刊介绍:
Higher education around the world has become a major topic of discussion, debate, and controversy, as a range of political, economic, social, and technological pressures result in a myriad of changes at all levels. But the quality and quantity of critical dialogue and research and their relationship with practice remains limited. This internationally peer-reviewed journal addresses this shortfall by focusing on the scholarship and practice of teaching and learning and higher education and covers: - Higher education teaching, learning, curriculum, assessment, policy, management, leadership, and related areas - Digitization, internationalization, and democratization of higher education, and related areas such as lifelong and lifewide learning - Innovation, change, and reflections on current practices
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