229 results
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2. Empowering student self‐regulated learning and science education through ChatGPT: A pioneering pilot study.
- Author
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Ng, Davy Tsz Kit, Tan, Chee Wei, and Leung, Jac Ka Lok
- Abstract
In recent years, AI technologies have been developed to promote students' self‐regulated learning (SRL) and proactive learning in digital learning environments. This paper discusses a comparative study between generative AI‐based (SRLbot) and rule‐based AI chatbots (Nemobot) in a 3‐week science learning experience with 74 Secondary 4 students in Hong Kong. The experimental group used SRLbot to maintain a regular study habit and facilitate their SRL, while the control group utilized rule‐based AI chatbots. Results showed that SRLbot effectively enhanced students' science knowledge, behavioural engagement and motivation. Quantile regression analysis indicated that the number of interactions significantly predicted variations in SRL. Students appreciated the personalized recommendations and flexibility of SRLbot, which adjusted responses based on their specific learning and SRL scenarios. The ChatGPT‐enhanced instructional design reduced learning anxiety and promoted learning performance, motivation and sustained learning habits. Students' feedback on learning challenges, psychological support and self‐regulation behaviours provided insights into their progress and experience with this technology. SRLbot's adaptability and personalized approach distinguished it from rule‐based chatbots. The findings offer valuable evidence for AI developers and educators to consider generative AI settings and chatbot design, facilitating greater success in online science learning. Practitioner notes What is already known about this topic AI technologies have been used to support student self‐regulated learning (SRL) across subjects. SRL has been identified as an important aspect of student learning that can be developed through technological support. Generative AI technologies like ChatGPT have shown potential for enhancing student learning by providing personalized guidance and feedback. What this paper adds This paper reports on a case study that specifically examines the effectiveness of ChatGPT in promoting SRL among secondary students. The study provides evidence that ChatGPT can enhance students' science knowledge, motivation and SRL compared to a rule‐based AI chatbot. The study offers insights into how ChatGPT can be used as a tool to facilitate SRL and promote sustained learning habits. Implications for practice and/or policy The findings of this study suggest that educators should consider the potential of ChatGPT and other generative AI technologies to support student learning and SRL. Educators and students should be aware of the limitations of AI technologies and ensure that they are used appropriately to generate desired responses. It is also important to equip teachers and students with AI competencies to enable them to use AI for learning and teaching. What is already known about this topic AI technologies have been used to support student self‐regulated learning (SRL) across subjects. SRL has been identified as an important aspect of student learning that can be developed through technological support. Generative AI technologies like ChatGPT have shown potential for enhancing student learning by providing personalized guidance and feedback. What this paper adds This paper reports on a case study that specifically examines the effectiveness of ChatGPT in promoting SRL among secondary students. The study provides evidence that ChatGPT can enhance students' science knowledge, motivation and SRL compared to a rule‐based AI chatbot. The study offers insights into how ChatGPT can be used as a tool to facilitate SRL and promote sustained learning habits. Implications for practice and/or policy The findings of this study suggest that educators should consider the potential of ChatGPT and other generative AI technologies to support student learning and SRL. Educators and students should be aware of the limitations of AI technologies and ensure that they are used appropriately to generate desired responses. It is also important to equip teachers and students with AI competencies to enable them to use AI for learning and teaching. [ABSTRACT FROM AUTHOR]
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- 2024
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3. The role of embodied scaffolding in revealing "enactive potentialities" in intergenerational science exploration.
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Nygren, Minna O., Price, Sara, and Thomas Jha, Rhiannon
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SCIENCE museums , *SCIENCE education , *SOMATIC sensation , *NONFORMAL education , *CHILD development , *ECOLOGY - Abstract
Although adults are known to play an important role in young children's development, little work has focused on the enactive features of scaffolding in informal learning settings, and the embodied dynamics of intergenerational interaction. To address this gap, this paper undertakes a microinteractional analysis to examine intergenerational collaborative interaction in a science museum setting. The paper presents a fine‐grained moment‐by‐moment analysis of video‐recorded interaction of children and their adult carers around science‐themed objects. Taking an enactive cognition perspective, the analysis enables access to subtle shifts in interactants' perception, action, gesture, and movement to examine how young children engage with exhibits, and the role adult action plays in supporting young children's engagement with exhibits and developing ideas about science. Our findings demonstrate that intergenerational "embodied scaffolding" is instrumental in making "enactive potentialities" in the environment more accessible for children, thus deepening and enriching children's engagement with science. Adult action is central to revealing scientific dimensions of objects' interaction and relationships in ways that expose novel types of perception and action opportunities in shaping science experiences and meaning making. This has implications for science education practices since it foregrounds not only "doing" science, through active hands‐on activities, but also speaks to the interconnectedness between senses and the role of the body in thinking. Drawing on the findings, this paper also offers design implications for informal science learning environments. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Online collaborative tools for science education: Boosting learning outcomes, motivation, and engagement.
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Ateş, Hüseyin and Köroğlu, Mustafa
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SCALE analysis (Psychology) , *INTERPROFESSIONAL relations , *COMPUTER software , *T-test (Statistics) , *SCIENCE , *EDUCATIONAL outcomes , *INTERNET , *RANDOMIZED controlled trials , *QUANTITATIVE research , *ANALYSIS of covariance , *DESCRIPTIVE statistics , *MIDDLE school students , *MOTIVATION (Psychology) , *CONTROL groups , *PRE-tests & post-tests , *DISCUSSION , *ACADEMIC achievement , *RESEARCH methodology , *ACHIEVEMENT tests , *INFERENTIAL statistics , *INTERPERSONAL relations , *LEARNING strategies , *COMPARATIVE studies , *DATA analysis software , *CONFIDENCE intervals , *GROUP process - Abstract
Background: Online collaboration tools have been identified as potentially effective means for enhancing student learning, motivation, and engagement in science education. However, their effectiveness in improving science education outcomes among middle school students remains uncertain. Objectives: The study aimed to investigate the impact of online collaboration tools on science education outcomes among middle school students, focusing on learning achievement, engagement, and motivation. Methods: A quasi‐experimental design with a pretest‐posttest control group was used in this study. A total of 60 eighth‐grade middle school students were involved in the study, with both the experimental and control groups comprising 30 students each. The experimental group incorporated the use of digital collaboration platforms, including Asana, Slack, and Team Viewer, as instrumental components of group project execution and discussion in their science lessons. Conversely, the control group adhered to the current educational approach in Turkey, characterized by the employment of an inquiry‐based learning strategy in their science instruction. Data was collected over eight weeks using a science achievement test, engagement scale, and science motivation scale. Results: The experimental group demonstrated significantly higher post‐test scores compared to the control group, suggesting that online collaboration tools positively impacted science education outcomes. Additionally, survey data indicated high levels of engagement and motivation among the experimental group students when using the online collaboration tools. Conclusions: The findings support the notion that online collaboration tools can effectively enhance learning, motivation, and engagement in science education among middle school students. These results have significant implications for educators, educational institutions, policymakers, and curriculum developers. Further research is needed to examine the potential of these tools in various educational contexts and with different student populations. This will help broaden the understanding of how online collaboration tools can be integrated into diverse learning environments, potentially benefiting a larger number of students and further improving science education outcomes. Lay Description: What is already known about this topic: Technology's role, particularly online collaboration tools, in enriching science education is undebatable (Donkin & Rasmussen, 2021; Rahmawati et al., 2022). Such tools have been theorized to bolster student learning outcomes, motivation, and engagement (Donnelly et al., 2013; Ekici, 2017; Khazanchi & Khazanchi, 2019). Yet, the empirical evidence validating their efficacy in science educational settings remains sparse. What this paper adds: This research delves into the influence of online collaboration tools on science learning outcomes among middle school learners. Data indicates that employing these digital tools substantially elevates student performance, as gauged by a science achievement test. Furthermore, students navigating through these online collaborative platforms recorded elevated levels of both engagement and motivation. The primary effectiveness of online collaboration tools stems from their ability to foster specific behaviours, such as increased communication frequency and structured task management, which can amplify learning and group collaboration through their facilitated structured interactions. Implications for practice and/or policy: This study's conclusions offer pivotal insights for educators, academic institutions, policy framers, and curriculum architects. Online collaborative platforms exhibit promise in amplifying student outcomes and engagement within the realm of science education. It is imperative to broaden this research scope to discern the tools' potential across varied educational environments and diverse student demographics. There is a compelling case for stakeholders, especially educators and policymakers, to contemplate incorporating these online tools into science pedagogy, aiming to magnify student learning experiences and engagement levels. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Talking about "bioluminescence" and "puppies of the ocean": An anti‐deficit exploration of how families create and use digital artifacts for informal science learning during and after an aquarium visit.
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Kelly, Kimberly R., Maloles, Claudine, George, Natalie, Mokatish, Selah, and Neves, Savannah
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NONFORMAL education , *BIOLUMINESCENCE , *AQUARIUMS , *PUPPIES , *DIGITAL video , *DEFICIT irrigation - Abstract
Families commonly document their outings by capturing their experiences through digital photographs and videos. However, little is known about the ways in which families engage their personal mobile devices to document educational family outings and how they subsequently talk about the digital artifacts that captured their informal learning experiences. This paper presents new evidence on family digital artifact creation during an informal science institution (ISI) visit, the expected and actual uses of their digital artifacts after the visit, and family conversations reminiscing about the ISI visit with the digital artifacts. Using a concurrent triangulation mixed‐methods design, data on family digital artifact creation during an aquarium visit (N = 204) and digital artifact use after the visit (n = 67) were collected using parent surveys. Audio‐recorded parent‐child conversations with a subset of families (n = 25) document whether and how families use their digital artifacts to reminisce about the aquarium visit. Quantitative findings detail family digital technology practices during informal learning experiences, and qualitative findings suggest evidence of informal science learning in the everyday interactions of the families who elected to continue the study. The study indicates that family storytelling and digital technology practices may help to bridge informal science learning from ISI to home and frames family non‐participation within an anti‐deficit perspective. [ABSTRACT FROM AUTHOR]
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- 2024
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6. Why are some students "not into" computational thinking activities embedded within high school science units? Key takeaways from a microethnographic discourse analysis study.
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Aslan, Umit, Horn, Michael, and Wilensky, Uri
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STUDENT engagement , *SCIENCE education , *HIGH schools , *SCIENCE teachers , *STUDENTS , *DISCOURSE analysis - Abstract
Science educators are integrating more and more computational thinking (CT) activities into their curricula. Proponents of CT offer two motivations: familiarizing students with a realistic depiction of the computational nature of modern scientific practices and encouraging more students from underrepresented backgrounds to pursue careers in science, technology, engineering, and mathematics. However, some studies show that increasing exposure to computing may not necessarily translate to the hypothesized gains in participation by female students and students of color. Therefore, paying close attention to students' engagement in computationally intense science activities is important to finding more impactful ways to promote equitable science education. In this paper, we present an in‐depth analysis of the interactions among a small, racially diverse group of high school students during a chemistry unit with tightly integrated CT activities. We find a salient interaction between the students' engagement with the CT activities and their social identification with publicly recognizable categories such as "enjoys coding" or "finds computing boring." We show that CT activities in science education can lead to numerous rich interactions that could, if leveraged correctly, allow educators to facilitate more inclusive science classrooms. However, we also show that such opportunities would be missed unless teachers are attentive to them. We discuss the implications of our findings on future work to integrate CT across science curricula and teacher education. [ABSTRACT FROM AUTHOR]
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- 2024
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7. The 2022 European postgraduate (residency) programme in neurology in a historical and international perspective.
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Bassetti, Claudio L. A., Soffietti, Riccardo, Vodušek, David B., Schoser, Benedikt, Kuks, Jan B. M., Rakusa, Martin, Cras, Patrick, and Boon, Paul A. J. M.
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SCIENCE education , *NEUROLOGY , *CLINICAL competence , *TWENTIETH century , *NEUROPHYSIOLOGY - Abstract
Background and purpose: Neurology residency programmes, which were first established at the beginning of the 20th century, have become mandatory all over Europe in the last 40–50 years. The first European Training Requirements in Neurology (ETRN) were published in 2005 and first updated in 2016. This paper reports the most recent revisions of the ETRN. Methods: Members of the EAN board performed an in depth revision of the ETNR 2016‐version, which was reviewed by members of the European Board and Section of Neurology of the UEMS, the Education and Scientific Panels, the Resident and Research Fellow Section and the Board of the EAN, as well as the presidents of the 47 European National Societies. Results: The new (2022) ETRN suggest a 5‐year training subdivided in three phases: a first phase (2 years) of general neurology training, a second phase (2 years) of training in neurophysiology/neurological subspecialties and a third phase (1 year) to expand clinical training (e.g., in other neurodisciplines) or for research (path for clinical neuroscientist). The necessary theoretical and clinical competences as well as learning objectives in diagnostic tests have been updated, are newly organized in four levels and include 19 neurological subspecialties. Finally, the new ETRN require, in addition to a programme director, a team of clinician‐educators who regularly review the resident's progress. The 2022 update of the ETRN reflects emerging requirements for the practice of neurology and contributes to the international standardization of training necessary for the increasing needs of residents and specialists across Europe. [ABSTRACT FROM AUTHOR]
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- 2024
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8. Teachers' gender bias in STEM: Results from a vignette study.
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Andersen, Ida Gran
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SEX discrimination in education , *SCIENCE education , *STEM education , *CULTURAL capital , *SECONDARY school students , *SECONDARY education - Abstract
Gender stereotypes in the natural sciences may discourage girls from pursuing STEM fields, thus contributing to the differential STEM pathways of males and females. This paper exploits quasi‐experimental data from a vignette study to investigate teachers' gender bias in STEM at the transition to upper secondary school in Denmark—a key stage in students' educational trajectories. I investigate if teachers have a higher probability of recommending a STEM track to a (vignette) male student compared with a (vignette) female student and if teachers' STEM recommendations interact with their demographic characteristics. Results show that, while there is a gender gap of 10 percentage points in the likelihood of being recommended a STEM track, the difference is not statistically significant. Furthermore, teachers' gender bias is influenced by the teacher's own gender and cultural capital. Consequently, the paper shows that teachers' gender bias varies with teachers' demographic characteristics and teachers with high levels of cultural capital can push back against gender stereotypes in STEM. [ABSTRACT FROM AUTHOR]
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- 2023
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9. Darwin's missing link—a novel paradigm for evolution education<FNR></FNR><FN>This paper was edited by former Editor Nancy W. Brickhouse </FN>.
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Catley, Kefyn M.
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BIOLOGICAL evolution education , *MACROEVOLUTION , *NATURAL selection , *GENETIC engineering , *CLONING , *BIOETHICS education , *SCIENCE education - Abstract
Microevolutionary mechanisms are taught almost exclusively in our schools, to the detriment of those mechanisms that allow us to understand the larger picture—macroevolution. The results are demonstrable; as a result of the strong emphasis on micro processes in evolution education, students and teachers still have poor understanding of the processes which operate at the macro level, and virtually no understanding at all of the history of life on our planet. Natural selection has become synonymous with the suite of processes we call evolution. This paper makes the case for a paradigm shift in evolution education, so that both perspectives—micro and macro—are given equal weight. Increasingly, issues of bioethics, human origins, cloning, etc., are being cast in a light that requires an understanding of macroevolution. To deny our students access to this debate is to deny the call for universal science literacy. A methodology from professional practice is proposed that could achieve this goal, and discussed in light of its utility, theoretical underpinnings, and historical legacy. A mandate for research is proposed that focuses on learners' understanding of several challenging macroevolutionary concepts, including species, the formation of higher groups, deep time, and hierarchical thinking. © 2006 Wiley Periodicals, Inc. Sci Ed90:767–783, 2006 [ABSTRACT FROM AUTHOR]
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- 2006
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10. Scientific novelty beyond the experiment.
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Hallsworth, John E., Udaondo, Zulema, Pedrós‐Alió, Carlos, Höfer, Juan, Benison, Kathleen C., Lloyd, Karen G., Cordero, Radamés J. B., de Campos, Claudia B. L., Yakimov, Michail M., and Amils, Ricardo
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LANGUAGE models , *CHATBOTS , *CLIMATE change & health , *SCIENCE education , *CLIMATE change , *INCONSISTENCY (Logic) - Abstract
Practical experiments drive important scientific discoveries in biology, but theory‐based research studies also contribute novel—sometimes paradigm‐changing—findings. Here, we appraise the roles of theory‐based approaches focusing on the experiment‐dominated wet‐biology research areas of microbial growth and survival, cell physiology, host–pathogen interactions, and competitive or symbiotic interactions. Additional examples relate to analyses of genome‐sequence data, climate change and planetary health, habitability, and astrobiology. We assess the importance of thought at each step of the research process; the roles of natural philosophy, and inconsistencies in logic and language, as drivers of scientific progress; the value of thought experiments; the use and limitations of artificial intelligence technologies, including their potential for interdisciplinary and transdisciplinary research; and other instances when theory is the most‐direct and most‐scientifically robust route to scientific novelty including the development of techniques for practical experimentation or fieldwork. We highlight the intrinsic need for human engagement in scientific innovation, an issue pertinent to the ongoing controversy over papers authored using/authored by artificial intelligence (such as the large language model/chatbot ChatGPT). Other issues discussed are the way in which aspects of language can bias thinking towards the spatial rather than the temporal (and how this biased thinking can lead to skewed scientific terminology); receptivity to research that is non‐mainstream; and the importance of theory‐based science in education and epistemology. Whereas we briefly highlight classic works (those by Oakes Ames, Francis H.C. Crick and James D. Watson, Charles R. Darwin, Albert Einstein, James E. Lovelock, Lynn Margulis, Gilbert Ryle, Erwin R.J.A. Schrödinger, Alan M. Turing, and others), the focus is on microbiology studies that are more‐recent, discussing these in the context of the scientific process and the types of scientific novelty that they represent. These include several studies carried out during the 2020 to 2022 lockdowns of the COVID‐19 pandemic when access to research laboratories was disallowed (or limited). We interviewed the authors of some of the featured microbiology‐related papers and—although we ourselves are involved in laboratory experiments and practical fieldwork—also drew from our own research experiences showing that such studies can not only produce new scientific findings but can also transcend barriers between disciplines, act counter to scientific reductionism, integrate biological data across different timescales and levels of complexity, and circumvent constraints imposed by practical techniques. In relation to urgent research needs, we believe that climate change and other global challenges may require approaches beyond the experiment. [ABSTRACT FROM AUTHOR]
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- 2023
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11. Rediscovering regional science: Positioning the field's evolving location in science and society.
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Chen, Zhenhua and Schintler, Laurie A.
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BIBLIOMETRICS , *SCIENCE education , *CONCEPTUAL structures , *URBAN economics , *COMMUNITIES - Abstract
This study aims to provide a comprehensive examination of the evolution of regional science, a scholarly domain in the social sciences that applies analytical and quantitative approaches and methods to understand and address urban, rural, or regional problems. We conducted a bibliometric analysis of 8509 articles published in six regional science flagship journals (including the Journal of Regional Science, Annals of Regional Science, Regional Science and Urban Economics, Papers in Regional Science, Regional Science Policy and Practice, and International Regional Science Review) from 1958 to 2021. The analysis presents an objective data‐driven and unprecedented visualization of the field's intellectual, social, and conceptual structure and trends from the beginning to the present. It also provides a rich portrayal of the epistemology of regional science and illuminates matters related to regional science education and training. We find that regional science has moved well beyond its origins, shifting away from a heavy focus on theory and abstraction to modeling/simulation, empirical analysis, and policy research. We also find that there has been increasing attention to "people" in regions and the spatial characteristics of social problems, and some important shifts in the regional science community itself, particularly in terms of patterns of collaboration and the geography of scholarship. The findings of this paper provide implications for future directions of research and education for regional science. [ABSTRACT FROM AUTHOR]
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- 2023
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12. Leveraging Lesson Study for Disciplinary Literacy: Studying and Planning for Scientific Modeling.
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Chandler‐Olcott, Kelly and Dotger, Sharon
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SCIENCE education , *TEACHING methods , *TEACHING models , *LITERACY education , *TEACHER educators - Abstract
This paper argues that the plan and study phases of lesson study are productive in helping educators with varied expertise and experience to explore scientific practices like modeling with ties to disciplinary literacy. Points are illustrated with data from a lesson‐study cycle in science that two university‐based teacher educators, one in literacy education and one in science education, conducted with colleagues from a nearby school district. The paper describes lesson study; outlines the role of scientific practices, including modeling, in the Next Generation Science Standards; and describes the context for the work, including the unit explored by the team. Recommendations about how to leverage the plan and study phases of lesson study for disciplinary literacy are offered, along with suggestions for getting started with such work. [ABSTRACT FROM AUTHOR]
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- 2023
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13. The nature of science: The fundamental role of natural history in ecology, evolution, conservation, and education.
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Nanglu, Karma, de Carle, Danielle, Cullen, Thomas M., Anderson, Erika B., Arif, Suchinta, Castañeda, Rowshyra A., Chang, Lucy M., Iwama, Rafael Eiji, Fellin, Erica, Manglicmot, Regine Claire, Massey, Melanie D., and Astudillo‐Clavijo, Viviana
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NATURAL history , *NATURAL history museums , *BACKGROUND radiation , *TRADITIONAL knowledge , *HISTORY education , *ECOLOGY , *NATURE conservation , *INDIGENOUS children - Abstract
There is a contemporary trend in many major research institutions to de‐emphasize the importance of natural history education in favor of theoretical, laboratory, or simulation‐based research programs. This may take the form of removing biodiversity and field courses from the curriculum and the sometimes subtle maligning of natural history research as a "lesser" branch of science. Additional threats include massive funding cuts to natural history museums and the maintenance of their collections, the extirpation of taxonomists across disciplines, and a critical under‐appreciation of the role that natural history data (and other forms of observational data, including Indigenous knowledge) play in the scientific process. In this paper, we demonstrate that natural history knowledge is integral to any competitive science program through a comprehensive review of the ways in which they continue to shape modern theory and the public perception of science. We do so by reviewing how natural history research has guided the disciplines of ecology, evolution, and conservation and how natural history data are crucial for effective education programs and public policy. We underscore these insights with contemporary case studies, including: how understanding the dynamics of evolutionary radiation relies on natural history data; methods for extracting novel data from museum specimens; insights provided by multi‐decade natural history programs; and how natural history is the most logical venue for creating an informed and scientifically literate society. We conclude with recommendations aimed at students, university faculty, and administrators for integrating and supporting natural history in their mandates. Fundamentally, we are all interested in understanding the natural world, but we can often fall into the habit of abstracting our research away from its natural contexts and complexities. Doing so risks losing sight of entire vistas of new questions and insights in favor of an over‐emphasis on simulated or overly controlled studies. [ABSTRACT FROM AUTHOR]
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- 2023
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14. Development of an instrument to assess views on nature of science and attitudes toward teaching science<FNR></FNR><FN>This paper was edited by former Editor Nancy W. Brickhouse </FN>.
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Chen, Sufen
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TEACHER attitudes , *ATTITUDE (Psychology) , *QUESTIONNAIRES , *COLLEGE student attitudes , *GRADUATE study in education , *SCIENCE teacher training , *SCIENCE education - Abstract
This article describes the development and field test of an instrument, the Views on Science and Education Questionnaire, designed to measure participants' concepts of the nature of science (NOS) and relevant teaching attitudes. The questionnaire includes 15 questions, each followed by several items representing different philosophical positions. Participants rank each item on a five-point scale. The items were empirically based and described from the learners' perspectives, but the issues and subcategories covered were validated by a panel of experts. The latest version was administered to 302 college students. Combined conceptions and conflicting thoughts about NOS were detected. Furthermore, the instrument achieved a test–retest correlation coefficient of 0.82. The questionnaire is a valid and practical tool that can be used to determine participants' conceptions and attitudes toward teaching NOS. With this instrument, science educators and teachers can conduct comparison studies and relate views of NOS to other measurable educational outcomes. © 2006 Wiley Periodicals, Inc. Sci Ed90:803–819, 2006 [ABSTRACT FROM AUTHOR]
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- 2006
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15. Exploring middle school students' use of inscriptions in project-based science classrooms<FNR></FNR><FN>This paper was edited by former Section Coeditors Gregory J. Kelly and Richard E. Mayer </FN>.
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Wu, Hsin-Kai and Krajcik, Joseph S.
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SCIENCE projects , *WATER quality , *TEACHING aids , *VIDEOS , *LEARNING strategies , *SCIENCE education , *MIDDLE school students , *SEVENTH grade (Education) , *SCAFFOLDED instruction - Abstract
This study explores seventh graders' use of inscriptions in a teacher-designed project-based science unit. To investigate students' learning practices during the 8-month water quality unit, we collected multiple sources of data (e.g., classroom video recordings, student artifacts, and teacher interviews) and employed analytical methods that drew from a naturalistic approach. The findings showed that throughout the unit, provided with the teachers' scaffold and social, conceptual, and material resources, the seventh graders were able to use various inscriptions (e.g., digital pictures, Web pages, and models) to demonstrate meaningful inscriptional practices such as creating and using inscriptions to make arguments, to represent conceptual understandings, and to engage in thoughtful discussions. Inscriptions and associated practices provided students with experiences and understandings about certain ways to organize, transform, and link data or scientific ideas. However, when constructing inscriptions, students did not consider how the inscriptions could serve certain reasoning purposes. In addition, more scaffolds were needed to help students use multiple inscriptions to make a coherent argument. © 2006 Wiley Periodicals, Inc. Sci Ed90:852–873, 2006 [ABSTRACT FROM AUTHOR]
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- 2006
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16. Understanding the earth systems of Malawi: Ecological sustainability, culture, and place-based education<FNR></FNR><FN>This paper was edited by former Section Coeditors Eva Krugly-Smolska and Peter C. Taylor </FN>.
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Glasson, George E., Frykholm, Jeffrey A., Mhango, Ndalapa A., and Phiri, Absalom D.
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HISTORY of science , *SCIENCE education , *SCIENCE & society , *ENVIRONMENTAL sciences , *DISCUSSION in education , *ENVIRONMENTAL education , *TEACHER participation in educational counseling , *ENVIRONMENTAL degradation , *ENVIRONMENTAL protection , *MALAWIANS - Abstract
The purpose of this 2-year study was to investigate Malawian teacher educators' perspectives and dispositions toward teaching about ecological sustainability issues in Malawi, a developing country in sub-Sahara Africa. This study was embedded in a larger theoretical framework of investigating earth systems science through the understanding of nature–knowledge–culture systems from local, place-based perspectives. Specifically, we were interested in learning more about eco-justice issues that are related to environmental degradation in Malawi and the potential role of inquiry-oriented pedagogies in addressing these issues. In a science methods course, the African educators' views on deforestation and teaching about ecological sustainability were explored within the context of the local environment and culture. Teachers participated in inquiry pedagogies designed to promote the sharing of perspectives related to the connections between culture and ecological degradation. Strategies encouraging dialogue and reflection included role-playing, class discussions, curriculum development activities, teaching experiences with children, and field trips to a nature preserve. Data were analyzed from postcolonial and critical pedagogy of place theoretical perspectives to better understand the hybridization of viewpoints influenced by both Western and indigenous science and the political hegemonies that impact sustainable living in Malawi. Findings suggested that the colonial legacy of Malawi continues to impact the ecological sustainability issue of deforestation. Inquiry-oriented pedagogies and connections to indigenous science were embraced by the Malawian educators as a means to involve children in investigation, decision making, and ownership of critical environmental issues. © 2006 Wiley Periodicals, Inc. Sci Ed90:660–680, 2006 [ABSTRACT FROM AUTHOR]
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- 2006
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17. Content knowledge, reflection, and their intertwining: A response to the paper set.
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Gunstone, Richard
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SCIENCE education , *SCIENCE teacher training - Abstract
Comments on how the issues of teacher knowledge and reflection affect the method of science teaching. Views on teacher education; Findings on the influence of knowledge in thinking and practice; Attitudes important to the reflection; Development of pedagogical content knowledge.
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- 1999
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18. Expanding questions and extending implications: A response to the paper set.
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Gess-Newsome, Julie
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SCIENCE education , *SCIENCE teacher training , *EDUCATIONAL change - Abstract
Comments on the series of articles pertaining to science teacher education and the content and impact of science method courses. Assumptions on the basis of teacher preparation programs; Adoption of conceptual change model; Differences in elementary and secondary science method courses; Reform of science teacher preparation.
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- 1999
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19. Bringing cultural inclusion to the classroom through intercultural teaching practices for science education (ITPSE) and guiding tools.
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Tovar‐Gálvez, Julio César
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SCIENCE education , *SCIENCE teachers , *CLASSROOMS , *THEORY of knowledge , *TEACHERS - Abstract
Intercultural teaching practices for science education (ITPSE) are suitable to support science teachers in bringing cultural inclusion into their classrooms. The epistemological bridge is the base of the ITPSE design since this approach describes culturally inclusive teaching of science. There is an ITPSE of planning and one of enactment. With those ITPSE, teachers engage students in explaining a phenomenon from science's epistemology and nonhegemonic cultures' epistemologies. Design‐based research is the methodology to produce the ITPSE through three design–test–design cycles. This paper reports on the third cycle to identify evidence to redesign the ITPSE. As a result, the teacher enacted through the ITPSE a version of the epistemological bridge very close to the framework. In addition, her reflection and feedback pointed to the guiding tools refinement. [ABSTRACT FROM AUTHOR]
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- 2023
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20. Analytics‐supported reflective assessment for 6th graders' knowledge building and data science practices: An exploratory study.
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Yang, Yuqin, Zheng, Zhizi, Zhu, Gaoxia, and Salas‐Pilco, Sdenka Zobeida
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DATA science , *ELEMENTARY education , *SCIENCE education , *LEARNING , *COOPERATIVE inquiry - Abstract
Preparing data‐literate citizens and supporting future generations to effectively work with data is challenging. Engaging students in Knowledge Building (KB) may be a promising way to respond to this challenge because it requires students to reflect on and direct their inquiry with the support of data. Informed by previous studies, this research explored how an analytics‐supported reflective assessment (AsRA)‐enhanced KB design influenced 6th graders' KB and data science practices in a science education setting. One intact class with 56 students participated in this study. The analysis of students' Knowledge Forum discourse showed the positive influences of the AsRA‐enhanced KB design on students' development of KB and data science practices. Further analysis of different‐performing groups revealed that the AsRA‐enhanced KB design was accessible to all performing groups. These findings have important implications for teachers and researchers who aim to develop students' KB and data science practices, and general high‐level collaborative inquiry skills. Practitioner notesWhat is already known about this topic Data use becomes increasingly important in the K‐12 educational context.Little is known about how to scaffold students to develop data science practices.Knowledge Building (KB) and learning analytics‐supported reflective assessment (AsRA) show premises in developing these practices.What this paper adds AsRA‐enhanced KB can help students improve KB and data science practices over time.AsRA‐enhanced KB design benefits students of different‐performing groups.AsRA‐enhanced KB is accessible to elementary school students in science education.Implications for practice and/or policy Developing a collaborative and reflective culture helps students engage in collaborative inquiry.Pedagogical approaches and analytic tools can be developed to support students' data‐driven decision‐making in inquiry learning. [ABSTRACT FROM AUTHOR]
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- 2023
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21. Introduction to rethinking learners' reasoning with nontraditional data.
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Noll, Jennifer, Kazak, Sibel, Zapata‐Cardona, Lucía, and Makar, Katie
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TEACHER development , *EYE tracking , *BIG data , *SCIENCE education - Abstract
They also observed that spending time having teachers move from data visualizations to data tables is also challenging, but may be a fruitful approach supporting better understanding of the relationships between data and visualizations. Erickson and Engel [[5]] utilize fairly traditional data; however, they explore these data through nontraditional forms of data visualization. The papers in this issue are an important starting point for considering how statistics and data science educators can begin the hard work of preparing students for a more complex society, one driven by data (real and fake) and computing technologies. Traditional statistics education has focused on data from random samples and has capitalized on knowledge about a sample to understand an unknown population. [Extracted from the article]
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- 2023
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22. Increasing learners' self‐efficacy beliefs and curiosity through a Frankenstein‐themed transmedia storytelling experience.
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Nagy, Peter, Mawasi, Areej, Eustice, Kristi, Cook‐Davis, Alison, Finn, Ed, and Wylie, Ruth
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TRANSMEDIA storytelling , *DIGITAL storytelling , *SCIENCE education , *SELF-efficacy in students , *PRIMARY education , *SECONDARY education - Abstract
Using Mary Shelley's Frankenstein as inspiration, this paper presents a Frankenstein‐themed transmedia storytelling experience, which encompasses simple hands‐on activities and an online narrative experience that allows students to model scientific work and engage in various science activities. The study aimed to test whether students can develop higher science and creative self‐efficacy beliefs, and a stronger science curiosity, by engaging in the transmedia experience that combined hands‐on and online narrative activities compared with participating in only hands‐on or online narrative experiences. Our paper presents findings from two classroom studies using survey findings. Results show that all three conditions (hands‐on, online game experience and transmedia) had a significant positive impact on learners' self‐efficacy beliefs and curiosity, but there was no additional benefit for the transmedia condition. Nevertheless, our work has various implications for learning sciences about the potential benefits and drawbacks of transmedia storytelling experiences. Our findings can help educators and researchers design and run transmedia storytelling projects. Practitioner notesWhat is already known about this topic Transmedia storytelling is a popular and adaptable learning application.Transmedia storytelling can be beneficial due to transfer of learning.Transmedia storytelling may foster learners' engagement and knowledge acquisition.What this paper adds The paper presents a Frankenstein‐themed transmedia experience that combines digital and hands‐on activities and borrows several themes from Mary Shelley's Frankenstein; or, the Modern Prometheus.Findings from this study show that transmedia storytelling can boost learners' science and creative self‐efficacy beliefs and science curiosity.However, transmedia storytelling combining digital and hands‐on experiences is not more effective in bolstering self‐efficacy beliefs and curiosity than digital or hands‐on experiences alone.Implications for practice and/or policy Transmedia storytelling might have unintended consequences for learning because it may exhaust learners' cognitive resources.Learners' transliteracy skills and competencies may influence what benefits they gain from partaking in transmedia storytelling experiences.Educators need to take learners' transliteracy skills into consideration when they wish to design and/or use transmedia storytelling experiences for learning purposes. [ABSTRACT FROM AUTHOR]
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- 2022
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23. Justice‐centered community–university partnering: Core tenets of partnering for justice epistemology.
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THEORY of knowledge , *POWER (Social sciences) , *YOUTH services , *SCIENCE education , *COMMUNITIES - Abstract
This paper is an introduction to and a synthesis of three papers in this issue written by scholars deeply committed to partnering with communities to understand and enact what it means to realize transformational ends in and through science education. Partnering for justice must be a conversation, a work in progress, and a critical examination that leads to intentional and careful forward movement. It is a beautiful effort at flattening power hierarchies so diverse voices and expertise can be interwoven in service of youth and communities who have been invisibilized and marginalized. Committed to realizing new, hope‐filled futures, the three pairs of authors use their experiences and expertise to shed light on the work of partnering using a temporal lens: considerations related to the beginnings, middles, and endings of partnering, each of which requires special intentionality and care. Together the authors share core overlapping tenets with other critical scholars that could be considered a partnering for justice epistemology. This epistemology underscores how importantly different learning through partnering for justice is from traditional notions of academic research. I close the paper by sharing lessons learned from my own 20‐plus years of partnering for justice, using the tenets of partnering for justice epistemology as a lens. [ABSTRACT FROM AUTHOR]
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- 2022
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24. Taking data feminism to school: A synthesis and review of pre‐collegiate data science education projects.
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Lee, Victor R., Pimentel, Daniel R., Bhargava, Rahul, and D'Ignazio, Catherine
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FEMINISM , *DATA science , *FEMINISTS , *LITERACY , *SCIENCE education , *STATISTICS education - Abstract
As the field of K‐12 data science education continues to take form, humanistic approaches to teaching and learning about data are needed. Data feminism is an approach that draws on feminist scholarship and action to humanize data and contend with the relationships between data and power. In this review paper, we draw on principles from data feminism to review 42 different educational research and design approaches that engage youth with data, many of which are educational technology intensive and bear on future data‐intensive educational technology research and design projects. We describe how the projects engage students with examining power, challenging power, elevating emotion and lived experience, rethinking binaries and hierarchies, embracing pluralism, considering context, and making labour visible. In doing so, we articulate ways that current data education initiatives involve youth in thinking about issues of justice and inclusion. These projects may offer examples of varying complexity for future work to contend with and, ideally, extend in order to further realize data feminism in K‐12 data science education. Practitioner notesWhat is already known about this topic Data feminism is an emergent framework for changing data practices and discourse in service of equity and justice.Data science education is rapidly growing as a topic of interest in the educational technology research and design communities.Many educational technology and design projects have been launched and shared in publications that preceded the widespread distribution of the data feminism framework.What this paper adds Data feminism is partially re‐articulated in terms familiar to educational technology research communities.Prior and recent projects are organized with respect to how they illustrate potential connections to core data feminism principles.This paper identifies specific strategies that recent projects have used that have potential for realizing data feminism principles.Implications for practice and/or policy Educational technologists can use the re‐articulated principles of data feminism for education to inform their future design work.Tractable steps to achieve data justice that are attainable within existing educational systems can be pursued.Communities can and should bring together multiple ways of knowing to support new educational practices and futures with data. [ABSTRACT FROM AUTHOR]
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- 2022
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25. Equity and justice in science education: Toward a pluriverse of multiple identities and onto‐epistemologies.
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Kayumova, Shakhnoza and Dou, Remy
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SCIENCE education , *JUSTICE , *SOCIAL classes , *ETHNICITY , *RACE , *GROUP identity - Abstract
Concepts in science education such as "science identity" and "science capital" are informed by dominant epistemological and ontological positions, which translate into assumptions about what counts as science and whose science counts. In this theoretical paper we draw on decolonial and antiracist perspectives to examine these assumptions in light of the heterogeneous onto‐epistemological and axiological values, cultural perspectives, and contributions of nondominant groups, and specifically of those who have been historically marginalized based on their gender, race, ethnic, age, and/or social class identity. Building on these arguments, we critique deficit‐based approaches to science teaching, learning, and research, including those that focus on systemic injustice, yet leave intact dominant framings of the scientific enterprise, which are exclusionary and meritocratic. As an alternative, we offer a design of science teaching and learning for the pluriverse—"a world where many worlds fit". This alternative allows us to reconstruct science and science‐related "outcomes," such as identity, in the service of cultural, epistemic, and linguistic pluralism. We close the paper with the idea that because mainstream theories reproduce deficit framings and educational injustices, we must engage with decolonial1 theories of pluriversality and discuss different onto‐epistemologies to be able to grapple with existing social, racial, environmental injustices, and land‐based devastations. [ABSTRACT FROM AUTHOR]
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- 2022
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26. Beginning with the end in mind: Meaningful and intentional endings to equitable partnerships in science education.
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Santos, Stephany and Scipio, Déana
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SCIENCE education , *PARTNERSHIPS in education , *COMMUNITIES , *MATHEMATICS education , *STEM education - Abstract
This paper is one of three sequential papers interrogating equity in partnerships (or partnering relationships [PRs]) in science, technology, engineering, and mathematics education. In this piece, we prioritize abundance framing and dignity‐conferring work when engaging in partnerships with and for communities who have been historically marginalized. We propose a framework of seven drivers that define the directions and/or success of PRs: (1) mission, vision, or values; (2) goals or outcomes; (3) practices or processes; (4) power, privilege, or oppression; (5) communities and geography; (6) time and urgency; and (7) partners. This framework can be used to examine PRs at any phase of their existence to ensure equity‐centered and dignity‐conferring processes and outcomes. We discuss case studies that are common or specific challenges or frustrations that occur in nonequity‐centered PRs. We frame these as six vexations: (1) sustainable PRs; (2) dignity‐conferring PRs; (3) repetitive PRs; (4) political PRs; (5) "mission trip" PRs; (6) and deceptive PRs. We address these by using a data feminist lens (a perspective inspired by the book Data Feminism that centers on justice in defining and presenting outcomes), and future dreamings (a perspective that centers on potential ahead) to define our suggestions for designing intentional endings of partnerships. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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27. Present in class yet absent in science: The individual and societal impact of inequitable science instruction and challenge to improve science instruction.
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Jones, Tamecia R. and Burrell, Shondricka
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PROBLEM solving , *STUDENT organizations - Abstract
Current science instruction does not educate K‐12 students equitably and creates short‐ and long‐term impacts on individual students and society. While students may be present in class, they may not have access to quality science learning experiences. The goals of this paper are to show how science instruction may not be reaching its aim of equitable access and to offer recommendations for creating a new baseline standard for equitable science instruction. Though not exhaustive, this paper identifies groups of students who are marginalized in current‐day science instruction—the racially minoritized, those with physical and cognitive differences, and those in urban or rural communities. First, this paper challenges the neutrality of science by highlighting systemic yet negative outcomes that disproportionately impact minoritized populations in everyday life because of the narrow network of people who define and solve problems. Second, this paper identifies examples where science instruction is not of its highest quality for the highlighted groups. Third, we present a synthesis of research‐informed solutions proposed to improve both the quality of science instruction and its equitable access for the highlighted groups, creating a new baseline standard for equitable science instruction. An elevated baseline would address the existing disparities in who has access to quality science instruction and consequently reduce the gatekeeper effect of who defines and solves societal problems that perpetuate intergenerational inequities. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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28. Introduction to rethinking learners' reasoning with nontraditional data.
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Noll, Jennifer, Kazak, Sibel, Zapata‐Cardona, Lucía, and Makar, Katie
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TEACHER development , *EYE tracking , *BIG data , *SCIENCE education - Abstract
Traditional statistics education has focused on data from random samples and has capitalized on knowledge about a sample to understand an unknown population. Erickson and Engel [[5]] utilize fairly traditional data; however, they explore these data through nontraditional forms of data visualization. They also observed that spending time having teachers move from data visualizations to data tables is also challenging, but may be a fruitful approach supporting better understanding of the relationships between data and visualizations. The papers in this issue are an important starting point for considering how statistics and data science educators can begin the hard work of preparing students for a more complex society, one driven by data (real and fake) and computing technologies. [Extracted from the article]
- Published
- 2023
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29. Science education in an age of misinformation.
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Osborne, Jonathan and Pimentel, Daniel
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SCIENCE education , *SCIENTIFIC literacy , *SCIENTIFIC knowledge , *MISINFORMATION , *SOCIAL media in education , *MEDIA literacy - Abstract
In this paper, we argue that the current science curricula are failing to educate students to be competent outsiders to science. Historically, science education has rested on two premises. The first is that it is possible for students to acquire sufficient scientific knowledge from K‐12 education to become intellectually independent. That is that science education can produce individuals capable of evaluating scientific evidence and arguments critically for themselves. This belief is what underlies many of the conceptions of scientific literacy and is the basis of the rationale that is used to sustain and justify what is offered in nearly all countries across the globe. The second is the belief that the science that students will encounter will have been filtered such that it can be trusted. Nothing today could be further from the truth. Today, misinformation abounds and much of it purports to be scientific. Very few conceptions of scientific literacy have considered how students can be prepared to evaluate the claims that abound on social media. Current conceptions of "scientific literacy," we argue, are failing to articulate the competencies and knowledge required in today's changed context. In what follows, we lay out our arguments for why it is time to rethink the conception of scientific literacy by considering what it requires to be a competent outsider to science. Then drawing on our recent report, we lay out what might be done within science education to address the specific phenomenon of misinformation. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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30. Transforming a doctoral summer school to an online experience: A response to the COVID‐19 pandemic.
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Cullinane, Alison, McGregor, Debra, Frodsham, Sarah, Hillier, Judith, and Guilfoyle, Liam
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SCIENCE education , *DOCTORAL students , *CORONAVIRUS diseases , *ASYNCHRONOUS learning , *SUMMER schools , *EDUCATIONAL outcomes - Abstract
For the last 28 years, one of the leading international science education organisations has regularly provided a week‐long summer school experience for doctoral students. In summer 2020, the COVID‐19 pandemic prevented international travel and close‐contact interactions between scholars. This required the transformation and relocation of learning interactions between mentors and doctoral students online through a virtual week‐long summer school. All doctoral participants, from across the five continents, were invited to reflectively comment on their educative experience after the online event. This paper consequently presents the perspectives of these science education PhD students who engaged with the transformed virtual summer school to consider how the range of varied online interactions maintained the learning opportunities for them and enabled their introduction to an established research community. The study indicates how the digital activities facilitated and maintained high‐quality learning exchanges through a varied array of intellectual activities involving both experienced and novice scholars. The findings demonstrate how successful academic outcomes can be achieved remotely while minimising international travel and significantly reducing financial outlay. This was achieved through creatively structuring a week‐long virtual experience and combining a series of synchronous and asynchronous learning opportunities for different groupings of participants within the international summer school community. Practitioner notesWhat is already known about this topic Doctoral students often feel that studying for their research degree is a very solitary experience.Supporting doctoral students to discuss their research with peers and more experienced others can address the feelings of isolation.The pandemic restricting face‐to‐face interaction constrains how learning can unfold in online contexts.It is possible to provide doctoral support through online means, however, the exact nature of such is not clearly defined.What this paper adds Clear evidence that doctoral learning communities [involving university students and tutors] can be successfully developed through online virtual environments.That online working can afford and extend doctoral learning, develop beginning researcher identities and provide students the opportunity to become part of an international research community whatever their geographical setting and prior socio‐cultural experiences.Clarity about the nature of online activities that ensure an appropriate blend of the kind of synchronous and asynchronous interactions that effectively support virtual online doctoral learning.The Community of Practice COP theoretical framework can offer a useful way of looking at different dimensions of higher degree learning.Implications for practice and/or policy This paper provides advice for those who would like to develop their own virtual learning networks that bring together learners from universities and wider organisations to develop a community of learning.That an appropriate blend of synchronous and asynchronous interactions can mediate and support doctoral students, aiding them to effectively become more knowledgeable members of an international research community within a short space of time.That international virtual events can successfully achieve learning outcomes while also minimising overseas travel, significantly reducing financial expenditure and individual carbon footprints. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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31. Developing Language Through Science.
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Gerde, Hope K. and Wasik, Barbara A.
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LANGUAGE acquisition , *SCIENCE education , *LITERACY education , *TEACHING methods , *LEARNING - Abstract
Teaching science can provide opportunities for young children to explore and learn about the world around them and, equally important, to support children's language development. Yet, recent research suggests that children's access to science education is limited, especially in early and elementary education. Since language is critical to children's success in learning to read, teachers need access to a variety of venues to develop these foundational literacy skills. This paper provides evidence of the importance of teaching science in an effort to teach science ideas and develop children's language. In addition, this paper describes a range of approaches teachers can use to facilitate inquiry‐based science education and oral language development simultaneously. When educators engage children in high‐quality science experiences, they present children with the opportunity to develop both science ideas and language. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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32. Learning to become ignorant: Improving the quality of epistemic knowledge in science education.
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Tan, Michael and Koh, Teck Seng
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SCIENCE education , *SCIENTIFIC literacy , *SCIENTIFIC knowledge , *PHENOMENOLOGICAL theory (Physics) , *UTILITY theory - Abstract
In considering goals for science education, it is conventional to make arguments for the utility of scientific knowledge for a variety of purposes. Less prominent are rationales based on the beauty or truth of science. In this paper, we examine how an approach to science education might be different if we shift the goals of communication to an appreciation of the ways in which our knowledge is limited, and how the practical boundaries of our knowledge can be closer than we think—in other words, how we are collectively ignorant. Key to this approach is a renewed understanding of the role of material investigations in providing partial knowledge. Instead of providing incontrovertible evidence, empirical investigations provide a form of "explanatory excess" whereby the appropriate choice of explanation is not necessarily one that can be simplistically determined. Although scientific practices provide techniques to minimize the possibility of error in making our conclusions, these practices are performed by fallible human communities, from which the notion of "tentative, yet durable" claims derives. We argue that public scientific literacy may be better served by more circumspect claims of validity, and crucially, an enhanced understanding of the ways in which materiality influences epistemic processes and limits our claims. We illustrate these proposals through the case of the International Young Physicists' Tournament, a contest that invites participants to play with interesting physical phenomena for over a year. We identify three factors prominent in these tournament problems that present possibilities for increasing the authenticity of practical investigations. These are (i) multiple physical interactions in phenomena leading to the openness of choice of explanatory theory; (ii) the qualitative, subjective nature of the explanatory utility of theories; and (iii) the material contingency of empirical investigations. We argue that a more open‐handed embrace of the limits of our knowledge may serve as a better epistemic orientation for science instruction. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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33. Guest editorial: Science studies and science education call for papers deadline: March 31, 2007.
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Duschl, Richard, Erduran, Sibel, Grandy, Richard, and Rudolph, John
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SCIENCE periodical publishing , *SCIENCE education , *SCIENCE & civilization , *HISTORY of science , *SCIENCE & society , *SCIENTIFIC knowledge - Abstract
The article states that the periodical "Science Education" will publish a special issue and implement a new section of the journal focusing on science studies and science education, starting in 2007. The focus of the field of science studies is to understand science as a socio-historical and epistemic effort. The article is seeking to publish papers that focus on how science studies apply to the theory, methodology, policy, and practice of science education. Disciplines of science study include the history, sociology, and philosophy of science, as well as cognitive and anthropological studies of science.
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- 2006
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34. Preface (3rd NCMD2022).
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Pandey, Shri Prakash and Singh, Pavan Kumar
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RESEARCH personnel , *SCIENTIFIC community , *TECHNOLOGICAL innovations , *SMART materials , *SCIENCE education - Abstract
The article discusses the importance of materials throughout human history and their role in economic progress and social well-being. It emphasizes the application of materials in the form of devices and the ongoing research on advanced and functional materials to enhance existing technologies. The article highlights the challenges faced by researchers in synthesizing, analyzing, and characterizing materials, and the need for collaboration among scientists, engineers, and individuals from industries. The article also provides an overview of the 3rd National Conference on Materials and Devices (NCMD), which aimed to connect young researchers with senior scientists and professors and facilitate discussions on materials and their device applications. The conference featured plenary and invited speakers, as well as research papers and poster presentations by young researchers. The article expresses gratitude to the organizers, Teerthanker Mahaveer University, and the journal "Macromolecular Symposia" for their support and publication of selected papers from the conference. [Extracted from the article]
- Published
- 2024
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35. The potential of "civic science education": Theory, research, practice, and uncertainties.
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Levy, Brett L. M., Oliveira, Alandeom W., and Harris, Cornelia B.
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CITIZEN science , *CIVICS education , *SCIENCE education , *CURRICULUM planning , *CIVIL society - Abstract
This paper explores the potential of civic science education (CSE), which includes experiences that have been intentionally designed to foster or enhance individuals' interactions with and/or engagement in science‐related public matters. To begin, we provide a theoretically‐grounded definition of CSE, including three sub‐categories: foundational, exploratory, and purposefully active. We then explore the scholarly arguments for why enacting CSE could help to support students' science learning and civic engagement and also strengthen civil society. Next, the paper examines current educational practices related to CSE, such as citizen science, exploring socioscientific issues, and various civic education pedagogies, detailing what researchers have learned from empirical studies of these practices. Building on this prior theory and research, we argue that CSE could motivate students both to learn science and become engaged in civic issues, with slightly different expected outcomes across the three CSE categories. We conclude by encouraging educators and researchers to explore the great potential of such practices, providing specific recommendations for curriculum development and empirical studies. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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36. Moderator effects of mobile users' pedagogical role on science learning: A meta‐analysis.
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Shi, Lehong and Kopcha, Theodore J.
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SCIENCE education , *MOBILE learning , *EDUCATIONAL technology , *META-analysis , *SITUATED learning theory , *ACADEMIC achievement , *YOUNG adults , *HIGHER education - Abstract
The advancement of technologies has promoted the increasing popularity and integration of mobile technologies in science education in the past decade. These trends have led to an increased interest among scholars to understand the effects of mobile technologies in science education and whether those effects differ depending on how mobile technologies are used in learning and teaching (eg, student‐led, teacher‐led, collaborative). In this study, we performed a meta‐analysis of 34 studies that directly examined the effects of users' pedagogical role on K‐16 students' achievement in science when engaging in mobile learning (ML). The analysis of the 34 studies yielded an overall significant main effect of ML on K‐16 science learning outcomes. We applied the mixed‐effects model with moderator variables and found that users' pedagogical role significantly moderated the ML effects as a whole. Collaborative and student‐led uses had a statistically significant impact on student science learning, whereas teacher‐led use did not. Findings from this meta‐analysis are consistent with prior research, providing synthesized research‐based evidence of the effects of ML on science learning that holds implications for both mobile curriculum design and mobile technology use. Practitioner notesWhat is already known about this topicMobile technology has been increasingly adopted in science learning with great potential to support learning and teaching.Prior meta‐analysis has suggested multiple moderators in measuring the mobile learning effect.Prior empirical studies examined the effect of mobile users' pedagogical role in the specific subject domains (eg, physics) and grade levels (eg, high school).What this paper addsThis meta‐analysis is among the first to examine the moderator effect of mobile users' pedagogical roles on ML in K‐16 science education.This study found that mobile technology use is associated with significant science learning outcomes across 34 studies.This study found that the effect of mobile learning was moderated by mobile users' pedagogical roles (ie, who initiated the use). Collaborative use between teachers and students tends to be the most effective. Teacher‐led use tends to be the least effective.Implications for practiceThis study suggests that we should consider who leads the use of mobile technology when integrating mobile learning in science education.In particular, educators should encourage collaborative and student‐led mobile use for learning and instruction. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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37. Big data, big changes? The technologies and sources of data used in science classrooms.
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Rosenberg, Joshua M., Schultheis, Elizabeth H., Kjelvik, Melissa K., Reedy, Aaron, and Sultana, Omiya
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BIG data , *DATA science , *LITERACY , *SCIENCE education , *TEACHER surveys - Abstract
With improving technology and monitoring efforts, the availability of scientific data is rapidly expanding. The tools that scientists and engineers use to analyse data are changing in response. At the same time, science education standards have shifted to emphasize the importance of students making sense of data in science classrooms. However, it is not yet known whether these exciting new datasets and tools are used science classrooms, and what it would take to facilitate their use. To identify opportunities, research is needed to capture the data practices currently performed in classrooms, and the roles of technology for student learning. Here, we report findings from a survey conducted in the United States of 330 science teachers on the data sources, practices and technologies common to their classroom. We found that teachers predominantly involve their students in analysing relatively small data sets that they collect. In support of this work, teachers tend to use the technologies that are available to them—namely, calculators and spreadsheets. In addition, we found that a subset of teachers used a wide variety of data sources of varying complexity. We discuss what these findings suggest for practice, research and policy, with an emphasis on supporting teachers based on their needs. Practitioner notes: What is already known about this topic Collecting and analysing data are central to the practice of science, and these skills are taught in many science classrooms at the pre‐collegiate (grades K‐12) level.Data are increasingly important in society and STEM, and types and sources of data are rapidly expanding. These changes have implications for science teachers and students. What this paper adds We found that the predominant data source science teachers use is student‐collected, small data sets.Teachers use digital tools familiar and available to them: spreadsheets and calculators.Teachers perceive the cost and time it would take to learn to use digital tools to analyse data with their students as key barriers to adopting new tools.Despite the predominance of small, student‐collected data analysed using spreadsheets or calculators, we also found notable variability in the data sources and digital tools some teachers used with their students. Implications for practice and/or policy Many of the changes called for in science education standards and reform documents, regarding how students should collect and analyse data, have not yet been fully realized in pre‐collegiate classrooms.Science teacher educators and science education researchers should build curricula and develop digital tools based on which kinds of data sources and digital tools teachers presently use, while encouraging more complex data useage in the future. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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38. Talking through the "messy middle" of partnerships in science education.
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Cheuk, Tina and Morales‐Doyle, Daniel
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SCIENCE education , *PARTNERSHIPS in education , *NARRATION - Abstract
This paper's focus is on the "middle" of partnerships for equity in science education. Middle is used in a temporal sense, meaning the time after the general purposes and terms of working together have been set and before outcomes have been achieved. The middle of the partnership also represents people interacting, bounded around the edges, by their institutional roles, norms, resources, and priorities. As co‐authors who had not previously collaborated (or even met in person), we approached the construction of this manuscript as a dialogue where we learn by sharing narrations of experiences and values and principles. We were inspired by the conversational book between Horton and Freire (1990) and specifically their discussion of "Is it possible to just teach biology?" (p. 102). In our conversation, we illustrate the ways in which partnerships may make justice‐oriented science education possible. Our focus is on complementary and contradictory knowledges, and ways of knowing, institutional resources and constraints, and strategies for making transformative change. We explore the middle of partnerships as a series of opportunities for learning and growing, caring for one another, and building solidarity spaces together. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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- View/download PDF
39. Structures of becoming: The who, what, and how of holistic science advising.
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Dodo Seriki, Vanessa and McDonald, Scott
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EDUCATORS , *IDENTITY (Psychology) , *STEM education , *SCIENCE education , *ECOSYSTEMS - Abstract
Addressing equity issues in science education requires a reorientation to how science students are advised and how science, technology, engineering, and mathematics (STEM) education, particularly science, is viewed. STEM education is often figuratively described as a pipeline containing students who leak out before reaching the nexus of their STEM education/career journey. The authors of this paper argue that STEM education must be viewed from an ecosystems perspective, where students interact with one another, their physical environment and cultural contexts, and other humans who can support them in becoming STEM professionals. Within this STEM ecosystem, many individuals have a pivotal role in supporting students as they learn and develop within the science field. These individuals, particularly advisors, must possess knowledge, beliefs, skills, and dispositions that help students cultivate a sense of belonging, engage them in critical thinking about their academic and career choices, and aid their identity development in learning as becoming in STEM professions. The authors describe who these individuals are, the roles they play, and also provide practical examples, using vignettes, of how advisors can support students of color pursuing science degrees and careers. Finally, recognizing that students' STEM advising ecosystem operates at any grade level or stage of life, the authors have organized the descriptive portion of this study according to the following levels elementary, secondary, undergraduate, graduate, and career. [ABSTRACT FROM AUTHOR]
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- 2022
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40. How differently designed guidance influences simulation‐based inquiry learning in science education: A systematic review.
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Sun, Yanyan, Yan, Zhenping, and Wu, Bian
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COMPUTER simulation , *SCHOOL environment , *COMPUTER assisted instruction , *SYSTEMATIC reviews , *COGNITION , *LEARNING strategies , *SOFTWARE architecture , *COMMUNICATION , *RESEARCH funding , *SCIENCE , *INFORMATION technology , *ERIC (Information retrieval system) , *PROMPTS (Psychology) - Abstract
Background: Guidance has showed positive effects on promoting inquiry‐based learning in science education. While an increasing number of studies focus on the design of guidance in simulation‐based inquiry learning due to recent technology developments, how different designs of a same type of guidance affect learning remains a question. Objectives: This study reviews the (quasi‐)experimental research on the learning effects of differently designed guidance in simulation‐based inquiry learning in the past decade (2011–2020). The investigation is guided by two questions: how differently designed guidance affects inquiry‐based learning in simulated environments in terms of learning process and learning outcomes, and what role technology plays in the design of guidance. In particular, we report on studies that compares the effects of a same type (process constraints/prompts/heuristics/scaffolds/metacognitive supports/direct presentation of information) of guidance with different instructional designs, and select a total of 28 peer‐reviewed journal articles. The results indicate no equivocal tendency of effectiveness towards a specific design. Instead, each type of guidance has related factors that may influence its effectiveness. Three major factors that related to optimization of inquiry learning guidance in simulation‐based environments are identified: the learner factor, the pedagogical factor, and the technological factor. Lay Description: What is already known about this topic?: Inquiry learning is an active learning approach that involves learners in self‐directed scientific discovery process to acquire knowledge.Technology provides alternative environments and unique features to support inquiry learning.Proper guidance could improve learning outcomes of inquiry‐based learning. What this paper adds?: Regarding to effectiveness, there is no equivocal tendency towards a specific design in each guidance type in simulation‐based inquiry learning.Technology plays multiple roles in the design of guidance in simulation‐based inquiry learning. Implications for practice: In the design of guidance in simulation‐based inquiry learning, learner factors, pedagogical factors, and technological factors should all be considered together.The teacher's role in providing guidance needs further exploration in simulation‐based inquiry learning. [ABSTRACT FROM AUTHOR]
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- 2022
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41. Improving students' inquiry learning in web‐based environments by providing structure: Does the teacher matter or platform matter?
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Cui, Yiran, Zhao, Guoqing, and Zhang, Danhui
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INQUIRY-based learning , *ONLINE education , *SCIENCE education , *BLENDED learning , *TEACHERS , *DISTANCE education - Abstract
Web‐based scientific inquiry learning is characterized as providing an autonomy‐supportive environment for students to solve scientific problems. However, as a complementary approach for improving students' learning, structure‐supportive strategies in a web‐based learning environment deserve further exploration. Whilst both teachers and platforms could make essential contributions in providing structure support, research findings concerning how teachers could successfully interact with the platform in such an environment are scarce. Grounded on self‐determination theory, two quasi‐experimental studies with pre and post measurements were conducted to address two questions. First, whether structure support could improve students' inquiry learning in an autonomous web‐based inquiry learning environment? Second, what is the relationship between teachers and platforms in doing this? As hypothesized, study 1 provides empirical evidence on the effectiveness of applying structure‐supportive instructional strategies in autonomous web‐based scientific inquiry. Study 2 confirmed that students performed best in the class with high structure support provided by both teachers and platforms. The results shed light on the positive impacts of integrating both autonomy and structure support and emphasize the critical role of teachers in a web‐based inquiry learning environment. Additionally, they infer a possible causal link between the efficient application of structure strategies and students' learning outcomes. Practitioner notesWhat is already known about this topicA web‐based scientific inquiry learning environment is helpful in assisting science inquiry learning. However, appropriate scaffolding is critical for students in regulating their learning.The autonomy‐ and structure‐supportive strategies could positively influence students' academic performance in the traditional face‐to‐face environment. However, how to integrate both strategies in web‐based learning environments deserves more exploration.Both teachers and platforms should make important contributions in providing structure support, but empirical evidence on how to integrate both are highly needed.What this paper addsThe findings of the current study contribute to the growing body of literature by highlighting the potential importance of self‐determination theory (SDT) in designing instructional strategies from an integrated perspective, particularly in a web‐based scientific learning environment.The results shed light on the positive impacts of integrating both autonomy and structure support, but also provide more implications inferring a possible causal link between the efficient application of structure strategies and students' learning outcomes.The results further indicated the essential role of teachers in a web‐based inquiry science environment.Implications for practice and/or policyAs we recognize the significance of autonomy‐supportive web‐based learning environments, its weaknesses should not be ignored. In designing such a platform, appropriate structure‐supportive strategies should be integrated to assist Chinese students in self‐regulating their learning.It is of practical significance for teachers to explore how to better cope with the use of platforms in the classroom and provide meaningful guidance for their students. [ABSTRACT FROM AUTHOR]
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- 2022
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42. An analytical instrument for coding and assessing argumentative dialogues in science teaching contexts.
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Martins, Marina and Macagno, Fabrizio
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EDUCATIONAL exchanges , *HIGH school students , *VIDEO recording , *SCIENCE education - Abstract
Most of the tools developed in the area of Science Education aimed at analyzing either the product or the process of argumentation do not consider the following: (a) arguments are a part of dialogues, (b) dialogues present different objectives, (c) dialogues start from different assumptions, and (d) dialogues shape the roles and moves of interlocutors. This paper intends to address the analysis of argumentative exchanges within educational science dialogues considering several aspects of argumentation that have neglected to be investigated in the field of education, such as the relations among individual moves and the dialogues they are part of, and the influence of such moves on knowledge construction. Toward this purpose, a proposed tool is presented, which describes argumentative dialogues in science teaching contexts across the varied and interrelated dimensions. This tool, consisting of six analytical aspects, is applied to high school chemistry students' argumentative dialogues taking place during modeling activities. Data collection (involving audio and video recording plus observations made by the researchers) revealed the main affordances of this tool as follows: (a) favoring an understanding of the individual and collective students' intentions; (b) enabling the characterization of argumentative discourse beyond the moves of refuting, questioning and providing support; (c) enabling the identification of whether knowledge construction has occurred; and (d) the possibility of analyzing teaching situations across different contexts. Thus, the tool supports the descriptions and analyses of the scientific argumentation process and the associated knowledge construction by students. [ABSTRACT FROM AUTHOR]
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- 2022
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43. Arguing about argument and evidence: Disagreements and ambiguities in science education research and practice.
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Tang, Xiaowei, Levin, Daniel M., Chumbley, Alexander K., and Elby, Andrew
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SCIENCE education , *AMBIGUITY , *EDUCATION research , *MASTER teachers , *SCIENCE classrooms , *TEACHERS - Abstract
Science education researchers agree about the importance of evidence in science practices such as argumentation. Yet, disagreements and ambiguities about what counts as "evidence" in science classrooms pervade the literature. We argue that these ambiguities and disagreements can be viewed as falling along three fault lines: (i) the source of evidence, specifically, whether it must be first‐hand; (ii) whether "evidence" must always be empirical; and (iii) the extent to which evidence is inferred, and what degree of inference transforms "evidence" into something else. In this paper, after showing how these three fault lines manifest in the literature, we argue that these three dimensions of disagreements and ambiguities are not confined to research and research‐based curricula; they are also salient in teachers' classroom practice, as illustrated by a dramatic, multiday debate between a mentor teacher and her teacher intern. After establishing the salience of the three fault lines in both research and practice, we explore whether Next Generation Science Standard (NGSS) can provide a resolution to the teachers' debate and to the disagreements/ambiguities in the literature. Our analysis reveals that NGSS reproduces rather than resolves those three fault lines—but in doing so, it invites a resolution of a different type. Instead of providing a single, precise, context‐independent definition of "evidence," NGSS implicitly reflects a defensible view that what counts as "evidence" depends on the epistemic aims of the practices in which the students are engaged. This implied context‐dependency of what counts as good evidence use, we argue, could be made explicit in an addendum document clarifying aspects of NGSS. Doing so would provide valuable guidance to teachers, teacher educators, and researchers. [ABSTRACT FROM AUTHOR]
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- 2022
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44. Designing educational technologies in the age of AI: A learning sciences‐driven approach.
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Luckin, Rosemary and Cukurova, Mutlu
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ARTIFICIAL intelligence in education , *EDUCATIONAL technology , *LEARNING , *SCIENCE education , *INTERDISCIPLINARY research - Abstract
Interdisciplinary research from the learning sciences has helped us understand a great deal about the way that humans learn, and as a result we now have an improved understanding about how best to teach and train people. This same body of research must now be used to better inform the development of Artificial Intelligence (AI) technologies for use in education and training. In this paper, we use three case studies to illustrate how learning sciences research can inform the judicious analysis, of rich, varied and multimodal data, so that it can be used to help us scaffold students and support teachers. Based on this increased understanding of how best to inform the analysis of data through the application of learning sciences research, we are better placed to design AI algorithms that can analyse rich educational data at speed. Such AI algorithms and technology can then help us to leverage faster, more nuanced and individualised scaffolding for learners. However, most commercial AI developers know little about learning sciences research, indeed they often know little about learning or teaching. We therefore argue that in order to ensure that AI technologies for use in education and training embody such judicious analysis and learn in a learning sciences informed manner, we must develop inter‐stakeholder partnerships between AI developers, educators and researchers. Here, we exemplify our approach to such partnerships through the EDUCATE Educational Technology (EdTech) programme. Practitioner NotesWhat is already known about this topic? The progress of AI Technology and learning analytics lags behind the adoption of these approaches and technologies in other fields such as medicine or finance.Data are central to the empirical work conducted in the learning sciences and to the development of machine learning Artificial Intelligence (AI).Education is full of doubts about the value that any technology can bring to the teaching and learning process.What this paper adds? We argue that the learning sciences have an important role to play in the design of educational AI, through their provision of theories that can be operationalised and advanced.Through case studies, we illustrate that the analysis of data appropriately informed by interdisciplinary learning sciences research can be used to power AI educational technology.We provide a framework for inter‐stakeholder, interdisciplinary partnerships that can help educators better understand AI, and AI developers better understand education.Implications for practice and/or policy? AI is here to stay and that it will have an increasing impact on the design of technology for use in education and training.Data, which is the power behind machine learning AI, can enable analysis that can vastly increase our understanding of when and how the teaching and learning process is progressing positively.Inter‐stakeholder, interdisciplinary partnerships must be used to make sure that AI provides some of the educational benefits its application in other areas promise us. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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45. Scaffolding ecosystems science practice by blending immersive environments and computational modeling.
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Dickes, Amanda C., Kamarainen, Amy, Metcalf, Shari J., Gün‐Yildiz, Semiha, Brennan, Karen, Grotzer, Tina, and Dede, Chris
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SCIENCE education , *COMPUTER simulation , *TECHNOLOGY research , *LEARNING , *CLASSROOM activities , *CURRICULUM - Abstract
Research in the field of technology‐enhanced learning has argued for a broader scope of technology‐supported learning environments to include the design of activity systems which position students as active thinkers by reorganizing learning with technology around the practices of scholarly communities. In the context of elementary ecosystems science, this entails structuring classroom activity around the construction and evaluation of epistemic artifacts, such as scientific models and representations, that profitably direct learners' conceptual efforts toward productive forms of inquiry and the construction of new scientific knowledge. In this demonstration‐of‐concept paper, we present EcoMOD, an elementary ecosystems science curriculum that blends an immersive virtual environment with an agent‐based computational modeling tool to support growth in ecological knowledge and scientific practice in learners aged 8 to 11 years old. Specifically, we explore how the design of the EcoMOD activity system supported students' active thinking in scientific inquiry through transformative modeling practices. Analysis of student activity and discourse indicates that engagement in transformative activities supported students in developing more nuanced causal explanations of the ecosystem by the end of the curriculum. Practitioner NotesWhat is already known about this topic Authentic virtual simulations can transform classroom learning experiences, particularly when organized around the production of epistemic artifacts.Computational modeling and programming tools are successful in supporting ecosystems knowledge construction and complex causal reasoning in learners.Engagement in transformative modeling practices are integral to the construction of new scientific knowledge.What this paper adds Suggests a design framework for meaningfully blending immersive virtual environments with computational modeling and programming tools to support active thinking in scientific inquiry.Demonstrates multi‐modal techniques for formative and summative assessment.Indicates that children in this age range are able, with appropriate support, to acquire knowledge and skills well above what is described in curriculum standards.Implications for practice and/or policy Offers practitioners an effective approach for productively integrating computational modeling, science content and inquiry‐based practices within elementary science instruction.Demonstrates to policymakers the practicality, affordability and value of immersive learning technologies and agent‐based modeling in classroom settings. [ABSTRACT FROM AUTHOR]
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- 2019
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46. An at‐home laboratory in plant biology designed to engage students in the process of science.
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Schnell, Laura J., Simpson, Gavin L., Suchan, Danae M., Quere, William, Weger, Harold G., and Davis, Maria C.
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FACTORY design & construction , *SCIENCE students , *PEAS , *BIOLOGY students , *SCIENCE education , *COVID-19 pandemic , *PHYSIOLOGY education - Abstract
The COVID‐19 pandemic prompted a transition to remote delivery of courses that lack immersive hands‐on research experiences for undergraduate science students, resulting in a scientific research skills gap. In this report, we present an option for an inclusive and authentic, hands‐on research experience that all students can perform off‐campus. Biology students in a semester‐long (13 weeks) sophomore plant physiology course participated in an at‐home laboratory designed to study the impacts of nitrogen addition on growth rates and root nodulation by wild nitrogen‐fixing Rhizobia in Pisum sativum (Pea) plants. This undergraduate research experience, piloted in the fall semester of 2020 in a class with 90 students, was created to help participants learn and practice scientific research skills during the COVID‐19 pandemic. Specifically, the learning outcomes associated with this at‐home research experience were: (1) generate a testable hypothesis, (2) design an experiment to test the hypothesis, (3) explain the importance of biological replication, (4) perform meaningful statistical analyses using R, and (5) compose a research paper to effectively communicate findings to a general biology audience. Students were provided with an at‐home laboratory kit containing the required materials and reagents, which were chosen to be accessible and affordable in case students were unable to access our laboratory kit. Students were guided through all aspects of research, including hypothesis generation, data collection, and data analysis, with video tutorials and live virtual sessions. This at‐home laboratory provided students an opportunity to practice hands‐on research with the flexibility to collect and analyze their own data in a remote setting during the COVID‐19 pandemic. This, or similar laboratories, could also be used as part of distance learning biology courses. [ABSTRACT FROM AUTHOR]
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- 2021
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47. Plan‐Draw‐Evaluate (PDE) pattern in students' collaborative drawing: Interaction between visual and verbal modes of representation.
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Park, Joonhyeong, Tang, Kok‐Sing, and Chang, Jina
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DISCOURSE analysis , *MODAL logic , *SCIENCE education , *SOCIAL structure , *STUDENT development , *DATA science , *DATA analysis - Abstract
The 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. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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48. "You could like science and not be a science person": Black girls' negotiation of space and identity in science.
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Wade‐Jaimes, Katherine, King, Natalie S., and Schwartz, Reneé
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RACISM in education , *SCHOOLGIRLS , *WOMEN in science , *SCIENCE education , *SPACE , *FEMININE identity , *MIDDLE school students - Abstract
Building on previous research that has described the underrepresentation of women of color in science fields, this paper presents case studies of Black middle school girls to examine how their science identities developed over space and time. Data were collected over the course of their seventh‐grade year in both in school (science classroom) and out‐of‐school (afterschool club) contexts. The Multidimensionality of Black Girls' STEM Learning framework was used to explore the role of the afterschool club as a counterspace and how students made sense of science, science people, and their current and future selves based on their experiences in school and after school science contexts. All three participants struggled to see their future selves as scientists and made distinctions amongst being a science person, a person who likes science, or a scientist. They also negotiated views of science as active and hands‐on in the afterschool setting while experiencing more passive and decontextualized forms of science in the formal school setting. Implications include a need to disrupt the culture of science and reimagine formal science education by learning from out‐of‐school time science programs that function as counterspaces to support Black girls' science identity. We conclude that there remains a need to draw attention to and understand the role of race and racism in science education so that Black girls' science identities are affirmed beyond counterspaces. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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49. Decolonising the science curriculum in England: Bringing decolonial science and technology studies to secondary education.
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Gandolfi, Haira Emanuela
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SCIENCE education , *SECONDARY education , *CURRICULUM , *CLASSROOM environment - Abstract
Recent 'decolonising the curriculum' movements have called for Higher Education to rethink how it engages with diversity and colonialism in its lectures and syllabi. But what can these ideas mean for science subjects in secondary schools? Grounded on a decolonial perspective around the Science and Technology Studies (STS) field, this paper explores the implications from decolonial perspectives for school science by addressing the following questions: how can science teachers decolonise mainstream science curricula such as the National Curriculum in England with inputs from the STS field? And, what can this endeavour bring to the teaching and learning of science? To support this investigation, a collaborative curriculum development endeavour with a science teacher at a comprehensive school in London/UK is explored. This experience involved planning and teaching four science topics from the National Curriculum in England to a year 8 classroom (students aged 12–13) and a qualitative investigation was carried out through interviews, observations and informal conversations over the school year. Findings reveal that rather than competing for space in an already overcrowded curriculum, decolonial ideas can help teachers to enrich and better integrate different science topics, while also addressing contemporary concerns about critical thinking and representativeness in (science) education. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
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50. A first introduction to data science education in secondary schools: Teaching and learning about data exploration with CODAP using survey data.
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Frischemeier, Daniel, Biehler, Rolf, Podworny, Susanne, and Budde, Lea
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METADATA , *SECONDARY education , *DATA science , *SCIENCE education , *SECONDARY schools - Abstract
In this paper, we will describe an introduction to Data Science for secondary school students. We will report on the design and implementation of an introductory unit on "Data and data detectives with CODAP" in which secondary school students used the online tool CODAP to explore real and meaningful survey data on leisure time activities and media use (so‐called JIM‐PB data) in a statistical project setting as a starting point for data science. The JIM‐PB data set served as a valuable data set that offered meaningful and exciting opportunities for data exploration for secondary school students, and CODAP proved to be a valuable tool for the first explorations of this data. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
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