Angel J Y Tan, Jean L Davies, Roderick I Nicolson, Themis Karaminis
{"title":"在线学习批判性思维技能:精准教学有帮助吗?","authors":"Angel J Y Tan, Jean L Davies, Roderick I Nicolson, Themis Karaminis","doi":"10.1007/s11423-023-10227-y","DOIUrl":null,"url":null,"abstract":"<p><p>Critical thinking is identified as a key educational outcome in higher education curricula; however, it is not trivial to support students in building this multifaceted skill. In this study, we evaluated a brief online learning intervention focusing on informal fallacy identification, a hallmark critical-thinking skill. The intervention used a bite-sized video learning approach, which has been shown to promote student engagement. Video-based learning was implemented within a precision teaching (PT) framework, which modulates the exposure of individual learners to the learning material to enable them to build 'fluency' in the targeted skills. In one of the learning conditions, PT was applied synergistically with domain-general problem-based training to support generalisation. The intervention consisted of two learning episodes and was administered to three groups (learning conditions) of 19 participants each: a PT fluency-based training group; a PT + group, where PT was combined with problem-based training; and a self-directed learning control group. All three groups showed comparable improvements in fallacy identification on taught (post-episode tests) and unseen materials (post-intervention assessment), with lower-scoring participants showing higher gains than high-scoring participants. The results of the knowledge retention tests a week later were also comparable between groups. Importantly, in the domain-general fallacy-identification assessment (post-intervention), the two PT groups showed higher improvements than the control group. These findings suggest that the integration of bite-sized video learning technologies with PT can improve students' critical-thinking skills. Furthermore, PT, on its own or combined with problem-based training, can improve their skill to generalise learning to novel contexts. We discuss the educational implications of our findings.</p>","PeriodicalId":48170,"journal":{"name":"Etr&d-Educational Technology Research and Development","volume":null,"pages":null},"PeriodicalIF":3.3000,"publicationDate":"2023-04-14","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10103667/pdf/","citationCount":"4","resultStr":"{\"title\":\"Learning critical thinking skills online: can precision teaching help?\",\"authors\":\"Angel J Y Tan, Jean L Davies, Roderick I Nicolson, Themis Karaminis\",\"doi\":\"10.1007/s11423-023-10227-y\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Critical thinking is identified as a key educational outcome in higher education curricula; however, it is not trivial to support students in building this multifaceted skill. In this study, we evaluated a brief online learning intervention focusing on informal fallacy identification, a hallmark critical-thinking skill. The intervention used a bite-sized video learning approach, which has been shown to promote student engagement. Video-based learning was implemented within a precision teaching (PT) framework, which modulates the exposure of individual learners to the learning material to enable them to build 'fluency' in the targeted skills. In one of the learning conditions, PT was applied synergistically with domain-general problem-based training to support generalisation. The intervention consisted of two learning episodes and was administered to three groups (learning conditions) of 19 participants each: a PT fluency-based training group; a PT + group, where PT was combined with problem-based training; and a self-directed learning control group. All three groups showed comparable improvements in fallacy identification on taught (post-episode tests) and unseen materials (post-intervention assessment), with lower-scoring participants showing higher gains than high-scoring participants. The results of the knowledge retention tests a week later were also comparable between groups. Importantly, in the domain-general fallacy-identification assessment (post-intervention), the two PT groups showed higher improvements than the control group. These findings suggest that the integration of bite-sized video learning technologies with PT can improve students' critical-thinking skills. Furthermore, PT, on its own or combined with problem-based training, can improve their skill to generalise learning to novel contexts. 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Learning critical thinking skills online: can precision teaching help?
Critical thinking is identified as a key educational outcome in higher education curricula; however, it is not trivial to support students in building this multifaceted skill. In this study, we evaluated a brief online learning intervention focusing on informal fallacy identification, a hallmark critical-thinking skill. The intervention used a bite-sized video learning approach, which has been shown to promote student engagement. Video-based learning was implemented within a precision teaching (PT) framework, which modulates the exposure of individual learners to the learning material to enable them to build 'fluency' in the targeted skills. In one of the learning conditions, PT was applied synergistically with domain-general problem-based training to support generalisation. The intervention consisted of two learning episodes and was administered to three groups (learning conditions) of 19 participants each: a PT fluency-based training group; a PT + group, where PT was combined with problem-based training; and a self-directed learning control group. All three groups showed comparable improvements in fallacy identification on taught (post-episode tests) and unseen materials (post-intervention assessment), with lower-scoring participants showing higher gains than high-scoring participants. The results of the knowledge retention tests a week later were also comparable between groups. Importantly, in the domain-general fallacy-identification assessment (post-intervention), the two PT groups showed higher improvements than the control group. These findings suggest that the integration of bite-sized video learning technologies with PT can improve students' critical-thinking skills. Furthermore, PT, on its own or combined with problem-based training, can improve their skill to generalise learning to novel contexts. We discuss the educational implications of our findings.
期刊介绍:
Educational Technology Research and Development is the only scholarly journal in the field focusing entirely on research and development in educational technology.
The Research Section assigns highest priority in reviewing manuscripts to rigorous original quantitative, qualitative, or mixed methods studies on topics relating to applications of technology or instructional design in educational settings. Such contexts include K-12, higher education, and adult learning (e.g., in corporate training settings). Analytical papers that evaluate important research issues related to educational technology research and reviews of the literature on similar topics are also published. This section features well-documented articles on the practical aspects of research as well as applied theory in educational practice and provides a comprehensive source of current research information in instructional technology.
The Development Section publishes research on planning, implementation, evaluation and management of a variety of instructional technologies and learning environments. Empirically based formative evaluations and theoretically based instructional design research papers are welcome, as are papers that report outcomes of innovative approaches in applying technology to instructional development. Papers for the Development section may involve a variety of research methods and should focus on one aspect of the instructional development process or more; when relevant and possible, papers should discuss the implications of instructional design decisions and provide evidence linking outcomes to those decisions.
The Cultural and Regional Perspectives Section (formerly International Review) welcome s innovative research about how technologies are being used to enhance learning, instruction, and performance specific to a culture or region. Educational technology studies submitted to this section should be situated in cultural contexts that critically examine issues and ideologies prevalent in the culture or region or by individuals or groups in the culture or region. Theoretical perspectives can be broadly based and inclusive of research, such as critical race theory, cultural-historical activity theory, and cultural models. Papers published in this section include quantitative, qualitative, and mixed-methods articles and reviews drawing on relevant theories, empirical evidence, and critical analyses of the findings, implications, and conclusions within a cultural context.
Educational Technology Research and Development publishes special issues on timely topics of interest to the community, in addition to regular papers.