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Park, Joonhyeong
- PublicationMetadata onlyIs water a lubricant?: Inquiring about a dilemmatic statement in physics education
We designed an inquiry activity to investigate the question, 'Is water a lubricant?' Placing the same object on surfaces of three different materials, we observed the effect of adding a small amount of water on the coefficient of static friction, μs. Up to 1 ml of water was added. The results of each surface were graphed and compared with one another. In general, our findings show that the addition of water serves to increase μs up to a certain point, before decreasing it. The experiment can be easily replicated in a secondary school science lab. It presents two seemingly opposing phenomena, but they both hold because they occur within their respective boundary conditions.
11 - PublicationOpen AccessAn analysis of student-generated drawings in terms of the types of scientific explanations and levels of representationsThis study examined the features of student-generated drawings to foster their understanding of sound transmission. In this regard, eighteen student-generated drawings constructed by the fifth and sixth elementary science gifted students were collected and analyzed. The students were asked to draw and explain sound transmission between a tuning fork and our ears. The researchers classified the types of student-generated drawings by focusing on `air particles' and `their interactions', which are invisible, and key ideas of sound transmissions, and then analyzed the features of the students' conceptions, as visually expressed in each type. Consequently, most students focused only on the collisions among air particles, the medium transmitting sound, without conceptualizing the particle vibrations, i.e., the back-and-forth movements of particles. For example, some students drew that the particles themselves vibrate, or the particles literally transmit vibrations as if handing over an object. Finally, the educational implications were discussed in terms of alternative conceptions for elementary and middle school students and how to teach sound transmission.
45 93 - PublicationMetadata onlyInquiring into a spectral concept in the physics classroomWe designed an inquiry activity to investigate the question 'How transparent are transparent films and papers?' Using an easily-replicable set up, we observed the effect of increasing the number of transparent films, thin papers and general papers between a light source and a light sensor. For each material, one sheet was added each time. The amount of light received was collected and graphed by a data logger. Our findings show that, as the number of sheets increases, the amount of light received at the receiver decreases. The general paper and thin paper stacks took 4 sheets and 10 sheets respectively to achieve negligible light transmittance. The transparent film stack did not achieve negligible light transmittance, but successive addition of sheets did lower transmittance. Evidently, transparent films are not perfectly transparent. Transparency (and opacity) is not a binary condition, but rather a continuum based on boundary conditions. The inquiry activity developed through this study, which investigates a spectrum of transparency in films and papers, may be useful for students to appreciate the spectral nature of the transparency concept across different materials.
11 - PublicationOpen AccessMultimodal genre of science classroom discourse: Mutual contextualization between genre and representation constructionThis paper argues that meaning-making with multimodal representations in science learning is always contextualized within a genre and, conversely, what constitutes an ongoing genre also depends on a multimodal coordination of speech, gesture, diagrams, symbols, and material objects. In social semiotics, a genre is a culturally evolved way of doing things with language (including non-verbal representations). Genre provides a useful lens to understand how a community’s cultural norms and practices shape the use of language in various human activities. Despite this understanding, researchers have seldom considered the role of scientific genres (e.g., experimental account, information report, explanation) to understand how students in science classrooms make meanings as they use and construct multimodal representations. This study is based on an enactment of a drawing-to-learn approach in a primary school classroom in Australia, with data generated from classroom videos and students’ artifacts. Using multimodal discourse analysis informed by social semiotics, we analyze how the semantic variations in students’ representations correspond to the recurring genres they were enacting. We found a general pattern in the use and creation of representations across different scientific genres that support the theory of a mutual contextualization between genre and representation construction.
WOS© Citations 4Scopus© Citations 5 332 67 - PublicationMetadata onlyInstructional framing for guiding the construction of explanatory diagrams in a science classroom: A metafunction perspective.
This study investigates how to guide students’ drawing diagram activities as constructing explanations in science classrooms from the metafunctions in systemic functional language (SFL). Although a drawing-to-learn approach requires sufficient support, there is still a lack of understanding regarding the pedagogical considerations for guiding students on what and how to draw during their activities. Guided by the metafunctions in SFL, I analysed a case of one teacher’s teaching practices of employing drawing-diagram activities in a general science classroom. I found that the teacher translated the objects to draw from the familiar to the targeted visual meaning for the students (ideational). To provide a clearer understanding of the roles of diagrams, she had reflective discussions with the students about how other people could interpret their diagrams and what would be important to represent iteratively through sharing the diagrams using a visualiser (interpersonal). She also often provided several examples of organising diagrams at the beginning of or during the activities to brainstorm ideas for the compositions (textual). This practical knowledge framed by the metafunctions is aimed at providing a better understanding of how teachers can deploy a drawing-to-learn approach and intervene during drawing activities to facilitate students’ science learning in general science classrooms.
16 - PublicationOpen AccessIntegrating artificial intelligence into science lessons: Teachers’ experiences and views(Springer Nature, 2023)
; ; ;Teo, Arnold; ;Koo, SengmengChang, JinaBackground
In the midst of digital transformation, schools are transforming their classrooms as they prepare students for a world increasingly automated by new technologies, including artificial intelligence (AI). During curricular implementation, it has not made sense to teachers to teach AI as a stand-alone subject as it is not a traditional discipline in schools. As such, subject matter teachers may need to take on the responsibility of integrating AI content into discipline-based lessons to help students make connections and see its relevance rather than present AI as separate content. This paper reports on a study that piloted a new lesson package in science classrooms to introduce students to the idea of AI. Specifically, the AI-integrated science lesson package, designed by the research team, provided an extended activity that used the same context as an existing lesson activity. Three science teachers from different schools piloted the lesson package with small groups of students and provided feedback on the materials and implementation.Findings
The findings revealed the teachers’ perceptions of integrating AI into science lessons in terms of the connection between AI and science, challenges when implementing the AI lesson package and recommendations on improvements. First, the teachers perceived that AI and science have similarities in developing accurate models with quality data and using simplified reasoning, while they thought that AI and science play complementary roles when solving scientific problems. Second, the teachers thought that the biggest challenge in implementing the lesson package was a lack of confidence in content mastery, while the package would be challenging to get buy-in from teachers regarding curriculum adaptation and targeting the appropriate audience. Considering these challenges, they recommended that comprehensive AI resources be provided to teachers, while this package can be employed for science enrichment programs after-school.Conclusions
The study has implications for curriculum writers who design lesson packages that introduce AI in science classrooms and for science teachers who wish to contribute to the development of AI literacy for teachers and the extension of the range of school science and STEM to students.WOS© Citations 1Scopus© Citations 13 62 53 - PublicationMetadata onlyDemonstrating representational competence through the utilisation of potential disciplinary meanings during scientific explanation constructionThe construction of scientific explanations is considered an important component of scientific practices in science classrooms. When constructing explanations, students utilise multimodal representations to make and convey specific meanings, which are useful in supporting their thinking and learning. The mastery of these recognised functions makes up and signifies representational competence. However, the literature has yet to offer a clear description of the demonstration of representational competence from the perspective that views competency as a goal-oriented meaning-making process that relies on specialised representations. This research took a case study approach and collected data from six first-year undergraduates tasked to construct scientific explanations of phenomena. Using multimodal discourse analysis, we identified sequences of representations that suggest how particular disciplinary meanings were realised. The results showed that students demonstrated representational competence by making available, recognising, and utilising what we termed as potential disciplinary meanings. These meanings acted as a basis with which to construct new meanings that fulfil the explanation. The same potential disciplinary meanings were recognised and utilised to varying extents by different students leading to diverse outcomes. Based on the findings, we discussed the significance of potential disciplinary meanings towards understanding and developing representational competence.
11 - PublicationOpen AccessFeatures of and representational strategies in instructional videos for primary science classesUtilisation of instructional videos for science teaching has become more widespread due to the expansion of online teaching and learning environments and growing awareness of benefits of videos, such as enabling use of effective multiple representations. With this in mind, this study aimed to examine features of instructional videos for teaching scientific inquiry, a key element of science education, and learners’ engagement, a crucial issue in instruction in terms of representational strategies used. We analysed 16 instructional videos for science teaching generated by pre-service teachers. We found that the instructional videos tended to focus on posing a question related to a phenomenon and constructing its explanation conceptually rather than conducting investigations and interpreting the data. It was also found that there were alternations between providing relevant and conceptual resources and affording learners opportunities to answer questions verbally and visually to prompt their engagement. Various representational strategies, such as summarising, comparing, highlighting, sequencing, and presenting vivid phenomena, were also employed for better teaching scientific inquiry as a part of learners’ ongoing cognitive activities. Based on the findings, we argue that there is potential for using instructional videos for teaching science, considering representational strategies in terms of scientific inquiry and learners’ engagement.
WOS© Citations 1Scopus© Citations 2 64 41 - PublicationOpen AccessInvestigating South Korean students’ risk perception related to the development of science and technology
The rapid progression of science and technology has brought both remarkable conveniences and innovations and potential risks to us. To address these risks within science education, this study aims to identify the tendency of students’ risk perceptions across different technologies. For this purpose, we developed a survey addressing three key components of risk perception (i.e., risk recognition, risk assessment, and risk management) and the educational need for risk education. 311 responses were collected from elementary, middle, and high school students and statically analyzed. The results indicated that students showed various risk perception patterns depending on the technology. There were significant perception gaps between boys and girls regarding vaccines and antimicrobial technology. It was also found that high school students’ perceptions of the benefits of the technologies were higher than elementary and middle school students’ perceptions. Based on these findings, we discuss pedagogical implications for risk education in science classrooms.
28 460 - PublicationOpen AccessPlan-Draw-valuate (PDE) pattern in students' collaborative drawing: Interaction between visual and verbal modes of representationThe use of group drawing to promote student-generated representation is a common instructional strategy as it combines the benefits of using visual representation and collaborative talk. Although the affordances of group drawing have increasingly been emphasized in science education, few studies have investigated how drawing as a visual mode interacts with group discourse as a verbal mode as well as how that interaction facilitates the development of students' collective ideas. Informed by theories in classroom discourse and multimodality, this paper examines the interaction process between a verbal and visual mode of representation as groups of students engaged in collaborative drawing during guided science inquiry lessons. On the basis of the analysis of data from a science class that adopted group drawing, we found and documented a recurring pattern, Plan-Draw-Evaluate or PDE pattern, in how the interaction between the verbal and visual modes occurred during collaborative drawing. This PDE pattern consisted of a triad of moves that alternate between the two modes and fulfilled various discursive purposes, such as suggesting, requesting, recording, visualizing, elaborating, agreeing, and rejecting. The PDE pattern provided a basic social structure that facilitated the collaboration and progression of students' ideas. With illustrations of PDE patterns and its variations, we argue that the PDE pattern provides an insight into the dynamic organization of interactions involved in group drawing that takes into consideration the multimodal affordances of verbal and visual modes of representation and the progression of ideas developed through collaborative discourse.
WOS© Citations 8Scopus© Citations 17 258 96