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Tan, Aik-Ling
Preferred name
Tan, Aik-Ling
Email
aikling.tan@nie.edu.sg
Department
Natural Sciences & Science Education (NSSE)
Personal Site(s)
ORCID
17 results
Now showing 1 - 10 of 17
- PublicationRestrictedDesigning tasks to teach SPA skills at lower secondary level in Singapore(2006-06)
;Towndrow, Phillip A. (Phillip Alexander); ;Venthan, A. M.Gayathri Dorairaju"This pilot project investigated the implementation, development and improvement of Science Practical Assessment (SPA) skills at secondary level in Singapore. The researchers profiled and critically examined existing science laboratory practices; collaborated in the planning and prototyping of pedagogic tools for teachers to use in designing and adapting instructional materials for SPA; and evaluated novel teaching, learning and assessment practices towards SPA skill development."-- [p. 1].642 366 - PublicationRestrictedScience education research in CRPP: A framework(2008-01)
;Osborne, Margery D."Science education research is important for continued success in science achievements in Singapore. The current science education research landscape in Singapore is diverse and lacks a consolidated framework through which science education can be examined. As such, this pilot study hopes to reveal some areas in which science education research efforts can focus on to ensure continued innovation and achievements in science."-- [p. 1] of executive summary.138 45 - PublicationOpen AccessAnalyzing CSCL-mediated science argumentation: how different methods matter(2009-06)
;Yeo, Jennifer Ai Choo; ; ; Lum, Shawn K. Y.Research on argumentation has increased our understanding of knowledge construction, group learning, and scaffolding structures in CSCL although analyses of argumentation pose many difficulties. This could be due to the many theoretical positions that can be taken when approaching discourse data. In this paper, we use three popular analytic methods (interactional, content-specific, and linguistic) to compare the same fragment of scientific argumentation by Grade 4 children in Singapore. We show the complementary emphases and strengths of each disciplinary position as well as their weaknesses. The results imply that analytic methods arising from different disciplinary positions can potentially broaden our overall understanding of using argumentation in CSCL.383 171 - PublicationOpen Access"Why the spiral moved": Seeking for knowledge building(2006-08)
; ; Ow, John Eu GeneThis paper tracks the learning experiences in science of three students using Knowledge Forum. We examine the interaction process, in particular the seeking patterns that result as the three students explore and build the knowledge of convection current. Using micro-analysis of contribution on Knowledge Forum and principles of analysis of electronic interaction and discourse proposed by Zhu (1989), this paper analyses the forms of participation a student can assume, focusing mainly on the different forms in which students seek information as they navigate through the sea of information posted online. Using a grounded approach, we characterize two different ways in which students seek for information in an online environment, which we labeled as interpersonal seeking and collaborative seeking. We believe that the seeking behavior, albeit subtle, is instrumental in directing learning and directing the courses of ‘discussion’ and the quality of the knowledge that is built.283 191 - PublicationOpen Access
181 68 - PublicationRestrictedGiving students a voice in science practical assessments(2006-05)
; Towndrow, Phillip A. (Phillip Alexander)This paper examines Science Practical Assessment (SPA) in the Singaporean classroom. In contrast to teacher-centric task setting and evaluation, this paper reports findings from a study where a class of students were involved in their own assessments mediated by digital video. Students were recorded during practical work and were then asked to review and edit the footage. Next, they evaluated their own and their classmates’ practical skills. These evaluations, scaffolded with a template and facilitated by the teacher, aimed to give the students a voice in presenting what they thought made ‘good’ science practical skills and practices in the laboratory. They also served as a platform for peer learning and provided a means for the students to be involved in discussing science and science practical skills. Results of this study reveal that students’ awareness of acceptable laboratory practices is enhanced through this innovative method of evaluating science practical work.158 41 - PublicationOpen AccessScissors, paper, stone: How students' deal with conceptual conflicts in an inquiry-based activity(2008-02)
;Poon, Chew Leng; One of the goals of inquiry-based teaching and learning of science is for students to learn the processes of inquiry and to apply these processes in new situations to construct new knowledge for themselves. Very often, students who are exposed to inquiry activities encounter conceptual conflicts that do not align with their pre-conceived ideas. How these conflicts are resolved provide different types of learning experiences for the learners. Interaction talk during hands-on science inquiry activities provides a good source of information on how students deal with conceptual conflicts and, in particular, how they apply inquiry skills to resolve these conflicts. The analysis of talk in interaction amongst a group of six grade five students in a Singapore school has surfaced at least three ways whereby students construct and shape their learning in an inquiry-based science activity through the ways they deal with conceptual conflicts: (a) domineering voices in a group can prematurely curtail alternative ideas and concepts in dealing with a conceptual conflict; (b) a peer expert in a group can scaffold learning for a student facing a conceptual conflict; and (c) learners draw on inquiry skills to resolve cognitive conflicts arising from anomalous results or behaviours during hands-on investigations.172 219 - PublicationOpen Access“But I have not started teaching!”: Knowledge building perils(2006-11)
; Scardamalia (2002) discussed the knowledge building notion as one which is built on social cognitive principles of learning. She proposed 12 principles focusing on collaborative knowing among students gearing toward building a community of learners in classrooms. However, how teachers become the key mediator for fostering knowledge building in classrooms is not fully explored. This study aims to contribute to the knowledge building research in terms of teacher professional development. Set in Singapore, where the dominant pedagogy is teacher-centred and routinised (Luke, Cazden, Lin & Freebody 2005), this paper examines the journey taken by two biology teachers trying to reform their classrooms by incorporating knowledge building principles. In one of our email exchanges with a teacher, she was exasperated with her attempt to bring knowledge building into her classroom. After a few sessions, she exclaimed “But I have not started teaching!” This prompted us to seek answers to the research question “What are the factors that will impact knowledge building efforts in a Singapore science classroom?” Interviews and transcript analysis of classroom lessons are used as data and interpretive methods of data analysis are used in this paper. The beliefs of the teachers are elicited through a semi-structured interview which takes the form of a post-lesson dialogue in this paper. The results of this study revealed three key areas of concern in adopting knowledge building principles, namely, renegotiation of institutional authority, changing beliefs about teaching, and learning and building students’ capacity for epistemic agency. In order for teachers to transform their practices in the classroom, there needs to be a structured and concerted understanding of these factors.144 187 - PublicationRestrictedAn insight into philosophy of science and ethics education for girls in Singapore(2008-05)"This pilot research study aims to help science educators gain an insight into the state of science learning in a high school through the lens of the philosophy of science and the ethics of science. The following research questions guide this research: 1. What are the learning processes which take place in a class, which aim to bring across the nature of science? 2. To what extent is the philosophy of science translated to actual classroom practice in school science? 3. What are students' perceptions of science after an education in science which aims to bring out the nature of scientific knowledge? "-- [p. 1] of executive summary.
161 28 - PublicationRestrictedTransforming science practical pedagogy and practice through innovative departmental planning(2009-02)
;Towndrow, Phillip A. (Phillip Alexander); Soo, Poh Ling"The study investigated the adoption and management of change relating to the teaching, learning and assessment of science practical skills within the science department of a secondary school in Singapore. The intended outcomes of the study featured the development of pedagogy and practices leading to the production of a departmental scheme of work incorporating Science Practical Assessment (SPA) skills. The research also supported a SPA-related professional development community that allowed teachers to share ideas and coach one another during an extensive intervention stage. The teachers involved in the project were also encouraged to reflect on and self-assess their learning as they taught in the laboratory." -- abstract.158 262