A teaching-learning sequence to develop epistemic thinking in engineering students at master’s educational level

IF 1.9 Q2 EDUCATION & EDUCATIONAL RESEARCH Journal of Applied Research in Higher Education Pub Date : 2024-07-19 DOI:10.1108/jarhe-10-2023-0464
Esther Cascarosa Salillas, Carlos Sánchez-Azqueta, Cecilia Gimeno, C. Aldea
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Abstract

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.

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培养工程学硕士研究生认识论思维的教学序列
目的这项研究工作有双重目标,一方面是帮助学生取得学习成果,掌握科学技能,另一方面是培养特定的科学次级能力,所有这些能力不仅与概念知识有关,而且与程序知识和认识论有关。设计/方法/途径 与萨拉戈萨大学的教师(也是电子学、应用物理学和实验科学教学法知识领域的研究人员)合作,为卢万天主教大学(比利时)的学生设计并实施了教学序列。在翻转课堂的教与学过程中采用了多种方法。研究结果表明,与传统教学相比,这种教学顺序能产生更显著的学习效果,但通过考试的学生人数并没有增加。学生科学地解释现象、评价和设计实验、提出可研究的问题、解释数据和科学证据,这些都是科学知识(内容、程序和认识)发展的结果。此外,学生们对这一方法的改变始终保持着积极性,并始终认为已按照课程目标实现了预期的学习目标。原创性/价值直到几年前,对实验科学教学法的研究以及所获成果在课堂上的应用还仅限于非大学阶段的教育。这项工作的契机是扩大与在高等物理教育中应用教学策略有关的知识。
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来源期刊
Journal of Applied Research in Higher Education
Journal of Applied Research in Higher Education EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
4.50
自引率
11.80%
发文量
63
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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