Showing total 2,708 results

1. The Role of Research in Science Teaching: An NSTA Theme Paper.

Author

Kyle, W. C.

Abstract

Proposes the following recommendations: (1) research should be a collaborative endeavor; (2) teachers should be action-researchers; (3) research must be close to the classroom; (4) an investigative society should be created; and (5) research should inform policy. (PR)

Published

1991

2. Content knowledge, reflection, and their intertwining: a response to the paper set

Author

Gunstone, Richard

Subjects

Teachers -- Training, Science -- Study and teaching, Education, Science and technology

Abstract

Pedagogical content knowledge and reflection are clearly intertwined elements in science teacher education. The development of pedagogical content knowledge mainly depends on the nature of the pedagogical reasoning that preservice teachers make as they decide how to teach specific content in specific contexts. It is clear that preservice teachers must be open-minded, as a lack of open-mindedness makes whole-heartedness difficult and prevents responsibility being fully exercised.

Published

1999

3. Expanding questions and extending implications: a response to the paper set

Author

Gess-Newsome, Julie

Subjects

Teachers -- Training, Science -- Study and teaching, Education, Science and technology

Abstract

Preservice science teachers are often very unwilling to adopt a constructivist approach and a conceptual change model of instruction. This may be attributable to the interactions among the initial positivistic assumptions of the preservice teachers and the insufficient integration between the university course and the field-based experience. There is a need to constantly challenge teachers' views of teaching, but this cannot necessarily be achieved through teacher preparation programmes.

Published

1999

4. Guest editorial: Science studies and science education call for papers deadline: March 31, 2007

Author

John L. Rudolph, Sibel Erduran, Richard A. Duschl, and Richard E. Grandy

Subjects

History and Philosophy of Science, Operations research, Engineering ethics, Science studies, Sociology, Science education, Education

Published

2006

5. Expanding questions and extending implications: A response to the paper set

Author

Julie Gess-Newsome

Subjects

Set (abstract data type), History and Philosophy of Science, Computer science, Data science, Education

Published

1999

6. Darwin's missing link—a novel paradigm for evolution education<FNR></FNR><FN>This paper was edited by former Editor Nancy W. Brickhouse </FN>.

Author

Catley, Kefyn M.

Subjects

*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]

Published

2006

7. The role of research in science teaching: An NSTA theme paper

Author

Betty L. Bitner, William C. Kyle, Marcia C. Linn, Bruce Perry, and Carole P. Mitchener

Subjects

Higher education, business.industry, Teaching method, Participatory action research, Science education, Teacher education, Education, Educational research, History and Philosophy of Science, Pedagogy, Mathematics education, Sociology, Action research, business, Theme (narrative)

Published

1991

8. 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>.

Author

Chen, Sufen

Subjects

*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]

Published

2006

9. College science teachers' views of classroom inquiry<FNR></FNR><FN>Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation. </FN><FNR></FNR><FN>This paper was edited by former Editor Nancy W. Brickhouse </FN>

Author

Brown, Patrick L., Abell, Sandra K., Demir, Abdulkadir, and Schmidt, Francis J.

Subjects

*INQUIRY-based learning, *SCIENCE education (Higher), *COLLEGE teachers, *ACTIVE learning, *CLASS size, *LEARNING strategies, *MOTIVATION (Psychology)

Abstract

The purposes of this study were to (a) gain an understanding of the views of inquiry held by faculty members involved in undergraduate science teaching and (b) describe the challenges, constraints, and opportunities that they perceived in designing and teaching inquiry-based laboratories. Participants included 19 college professors, representing both life and physical science disciplines, from (a) 2-year community college, (b) small, private nonprofit liberal arts college, (c) public master's granting university, and (d) public doctoral/research extensive university. We collected data through semistructured interviews and applied an iterative data analysis process. College science faculty members held a “full and open inquiry” view, seeing classroom inquiry as time consuming, unstructured, and student directed. They believed that inquiry was more appropriate for upper level science majors than for introductory or nonscience majors. Although faculty members valued inquiry, they perceived limitations of time, class size, student motivation, and student ability. These limitations, coupled with their view of inquiry, constrained them from implementing inquiry-based laboratories. Our proposed inquiry continuum represents a broader view of inquiry that recognizes the interaction between two dimensions of inquiry: (a) the degree of inquiry and (b) the level of student directedness, and provides for a range of inquiry-based classroom activities. © 2006 Wiley Periodicals, Inc. Sci Ed90:784–802, 2006 [ABSTRACT FROM AUTHOR]

Published

2006

10. 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>.

Author

Wu, Hsin-Kai and Krajcik, Joseph S.

Subjects

*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]

Published

2006

11. 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>.

Author

Glasson, George E., Frykholm, Jeffrey A., Mhango, Ndalapa A., and Phiri, Absalom D.

Subjects

*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]

Published

2006

12. Dimensions that shape teacher–scientist collaborations for teacher enhancement<FNR></FNR><FN>This paper was edited by former section editor Deborah Trumbull </FN>.

Author

Drayton, Brian and Falk, Joni

Subjects

*SCIENCE teachers, *SCIENTIFIC community, *ECOLOGISTS, *EDUCATION research, *TEACHING, *CONTINUING education, *TEACHERS, *TEACHER participation in curriculum planning, *ECOLOGICAL research, *TRAINING, *SCIENTIFIC experimentation

Abstract

Partnerships of teachers with scientists are thought to be important for many aspects of science education reform, but it is not always clear how to make such partnerships productive. Between 1994 and 1997, high school teachers were partnered with scientists, to design yearlong ecological research projects in which the teachers were learning for their own sake, rather than to create new curriculum. In these partnerships the relationships with the scientists took many forms. We found that negotiations around five dimensions seemed particularly important: (1) Whose question was being investigated? (2) Was the focus primarily on data collection or data analysis? (3) Was the research based on the ecologist's area of expertise, or the teachers' interest? (4) Was the focus primarily on the teachers' learning on their students' classroom learning? (5) Was the research intended for an external audience, or primarily for the teachers' own benefit? Three case studies are presented, showing how these dimensions shaped the negotiations of more successful and less successful collaborations. Implications for inquiry-based pedagogy, and cultural issues arising in scientist-teacher collaborations, are discussed. © 2006 Wiley Periodicals, Inc. Sci Ed, 90:734–761, 2006 [ABSTRACT FROM AUTHOR]

Published

2006

13. Guest editorial: Science studies and science education call for papers deadline: March 31, 2007

Author

Duschl, Richard, primary, Erduran, Sibel, additional, Grandy, Richard, additional, and Rudolph, John, additional

Published

2006

14. Notes on the paper set

Author

Barab, Sasha Alexander, primary

Published

2003

15. Presentation of Outstanding Paper of the Year Awards.

Subjects

AWARDS, SCIENCE education, RESEARCH

Abstract

The article announces the first Outstanding Paper of the Year competition of the journal "Science Education." The Outstanding Paper of 1984 Award has been awarded to Glen S. Aikenhead for his paper on "Collective Decision Making in the Social Context of Science." Four Awards of Merit have also been presented to Mary W. Arnaudin and Joel J. Mintzes for their paper "Students' Alternative Conceptions of the Human Circulatory System: A Cross-Age Study."

Published

1985

16. Relationships between prospective secondary teachers' classroom practice and their conceptions of biology and of teaching scienceThis article is based on a paper presented at the annual meeting of the American Educational Research Association, New Orleans, LA, April, 1994.

Published

1999

17. Expanding questions and extending implications: A response to the paper set

Published

1999

18. Dilemma of the Objective Paper-and-Pencil Assessment within the Piagetian Framework.

Author

Cohen, Herbert G.

Subjects

CONSTRUCTIVISM (Education), EDUCATION, COGNITIVE psychology, DEVELOPMENTAL psychology, EDUCATIONAL ideologies, EDUCATIONAL evaluation, CURRICULUM planning, CURRICULUM

Abstract

The article comments on the dilemma of the objective paper-and-pencil assessment within the Piagetian framework in the U.S. Paper-and-pencil measures also lack the flexibility of the clinical method in which a perceptive interviewer can explore the various ways in which a subject interprets his or her environment. Paper-and-pencil instruments attempt to retain various aspects of the clinical interview method. It must be noted that many measures of formal operational reasoning also assess other cognitive capabilities such as field independence.

Published

1980

19. Science education outstanding paper awards

Author

Simpson, Ronald D., primary and Oliver, J. Steve, additional

Published

1991

20. Notes on the paper set

Author

Sasha A. Barab

Subjects

Set (abstract data type), Information retrieval, History and Philosophy of Science, Computer science, Education

Published

2003

21. Science education outstanding paper awards

Author

Ronald D. Simpson and J. Steve Oliver

Subjects

Engineering, History and Philosophy of Science, business.industry, Engineering ethics, business, Engineering physics, Science education, Education

Published

1991

22. Introducing Curriculum Innovations in Science: Identifying Teachers' Transformations and the Design of Related Teacher Education

Author

Pinto, Roser

Abstract

This paper introduces the four research papers in this paper set, which all derive from a European research project, STTIS (Science Teacher Training in an Information Society). The central concern of the project was to study curriculum innovations in science, and to investigate ways in which teachers transform these innovations when putting them into practice. This work led to the construction of appropriate teacher training materials for use when an innovation is being introduced. The paper describes the mutual research strategy agreed upon by the STTIS partners. Both to avoid repetition and to underline the understanding that the partners share about the issues involved in curriculum innovation and related teacher education, the main theoretical background and the review of literature relevant to all four papers is to be found here. Themes and conclusions common to all the papers are highlighted. The paper also outlines the common features of the approach the STTIS partners took toward the construction of teacher training materials. These materials build in concrete results from the research, in forms that provoke discussion and reflection aimed at making teachers more aware of their ideas and behavior, with a view to effecting lasting change.

Published

2005

23. Taking a Closer Look at Science Teaching Orientations

Author

Friedrichsen, Patrica, Van Driel, Jan H., and Abell, Sandra K.

Abstract

In this position paper, we examine the science teaching orientation component of the S. Magnusson, J. Krajcik, and H. Borko (1999) pedagogical content knowledge (PCK) model for science teaching. We trace the origin of the construct in the literature, identifying multiple definitions that have lead to ambiguity. After examining published studies using the PCK model, we identified the following methodological issues: (a) using orientations in different or unclear ways, (b) unclear or absent relationship between orientations and the other model components, (c) simply assigning teachers to one of nine categories of orientations, and (d) ignoring the overarching orientation component. To bring clarity to the literature, we propose defining science teaching orientations as a set of beliefs with the following dimensions: goals and purposes of science teaching, views of science, and beliefs about science teaching and learning. Consequently, there is a need for new instruments to elicit these dimensions. We conclude by making recommendations to address the four issues identified in the literature. (Contains 1 figure.)

Published

2011

24. On Performing Concepts during Science Lectures

Author

Pozzer-Ardenghi, Lilian and Roth, Wolff-Michael

Abstract

When lecturing, teachers make use of both verbal and nonverbal communication. What is called teaching, therefore, involves not only the words and sentences a teacher utters and writes on the board during a lesson, but also all the hands/arms gestures, body movements, and facial expressions a teacher "performs" in the classroom. All of these communicative modalities constitute resources that are made available to students for making sense of and learning from lectures. Yet in the literature on teaching science, these other means of communication are little investigated and understood--and, correspondingly, they are undertheorized. The purpose of this position paper is to "argue" for a different view of concepts in lectures: they are performed simultaneously drawing on and producing multiple resources that are different expressions of the same holistic meaning unit. To support our point, we provide examples from a database of 26 lectures in a 12th-grade biology class, where the human body was the main topic of study. We analyze how different types of resources--including verbal and nonverbal discourse and various material artifacts--interact during lectures. We provide evidence for the unified production of these various sense-making resources during teaching to constitute a meaning unit, and we emphasize particularly the use of gestures and body orientations inside this meaning unit. We suggest that proper analyses of meaning units need to take into account not only language and diagrams but also a lecturer's pointing and depicting gestures, body positions, and the relationships between these different modalities. Scientific knowledge (conceptions) exists in the "concurrent" display of "all" sense-making resources, which we, following Vygotsky, understand as forming a unit (identity) of nonidentical entities.

Published

2007

25. Informing research on generative artificial intelligence from a language and literacy perspective: A meta‐synthesis of studies in science education.

Author

Tang, Kok‐Sing

Subjects

*GENERATIVE artificial intelligence, *SCIENTIFIC literacy, *SCIENCE education, *BIBLIOMETRICS, *SCIENTIFIC language

Abstract

Research in languages and literacies in science education (LLSE) has developed substantial theoretical and pedagogical insights into how students learn science through language, discourse, and multimodal representations. At the same time, language is central to the functioning of generative artificial intelligence (GenAI). On this common basis concerning the role of language, this paper explores how foundational ideas from LLSE studies can inform the use of GenAI in science education. A bibliometric analysis of 412 journal articles from Web of Science provided the initial step to identify major themes and relationships in the LLSE literature. The analysis revealed four clusters of research in LLSE: reading and writing scientific text, science discourse and interaction, multilingual science classroom, and multimodality and representations. Each cluster was further analyzed through close reading of selected articles to identify and connect key constructs to the potential use of GenAI. These constructs include the interactive‐constructive reading model, text genre, reading‐writing integration, dialogic interaction, critical questioning, argumentation, translanguaging, hybridity, thematic pattern, modal affordance, and transduction. From these ideas and connections, the paper recommends several pedagogical principles for science educators to guide the use of GenAI. It concludes that LLSE research offers valuable insights for researchers and teachers to investigate and design the use of GenAI in science education. In turn, the impending use of GenAI also calls for a rethinking of literacy that will shape future research in LLSE. [ABSTRACT FROM AUTHOR]

Published

2024

26. Dilemma of the objective paper-and-pencil assessment within the piagetian framework

Author

Herbert G. Cohen

Subjects

Dilemma, History and Philosophy of Science, Pedagogy, Mathematics education, Psychology, Pencil (mathematics), Education

Published

1980

27. Justice‐centered community–university partnering: Core tenets of partnering for justice epistemology.

Subjects

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]

Published

2022

28. Presentation of outstandingx paper of the year awards

Author

L. E. Klopfer and J. A. Dytman

Subjects

Presentation, Medical education, History, History and Philosophy of Science, media_common.quotation_subject, Education, media_common

Published

1985

29. Science education. Outstanding paper of the year award

Published

1984

30. Presentation of outstandingx paper of the year awards

Author

Klopfer, L. E., primary and Dytman, J. A., additional

Published

1985

31. Viewing science teacher learning and curriculum enactment through the lens of theory of practice architectures.

Author

Fazio, Xavier, Kemmis, Stephen, and Zugic, Jessica

Subjects

*CAREER development, *ELEMENTARY school teachers, *PROFESSIONAL employee training, *HIGH school teachers, *SECONDARY school teachers

Abstract

Science teachers struggle to implement and sustain new curricular ideas from professional development (PD) experiences. These PD opportunities are crucial for enacting real‐world changes to teaching practice and address pressing global challenges, such as the teaching and learning of socioscientific topics nested in school communities. Additionally, it is important to consider how school situative conditions are an important aspect in how science teachers learn, develop, and enact curricular practices in their classrooms. This paper is part of a special issue on Teacher Learning and Practice within Organizational Contexts. The purpose of this conceptual paper is to illustrate how researchers can frame research using the theory of practice architectures (TPA) as a lens to develop a dynamic socio‐material understanding of teacher learning within teachers' working environments and their local school communities. An ongoing multi‐year professional learning study with science teachers in an elementary school and secondary school was analyzed using TPA. Using a philosophical‐empirical approach, observations from PD sessions and collaborative meetings illustrated teachers' practices in the form of sayings, doings, and relatings and their changes over the duration of the observations with associated modifications in schools' practice architectures. Although specific school conditions, such as timetable restrictions and curriculum accountability, constrained teachers' practices they were still enabled to learn and develop their practices. Overall, TPA was found to be an insightful framework for theorizing changes in science teaching practices of teachers' saying, doings, and relatings at their school sites. Future research focused on PD within schools would benefit from using a TPA approach to theorizing science teacher learning and curriculum enactment practices. [ABSTRACT FROM AUTHOR]

Published

2024

32. Practical measures of science teacher learning: Conceptualizing organizational functions and affordances.

Author

Anderson, Eleanor R. and Richards, Jennifer

Subjects

*SCIENCE teachers, *EDUCATIONAL tests & measurements, *TEACHERS, *LEARNING, *METAPHOR

Abstract

In this paper, we build on a growing body of research on practical measurement for educational improvement, contributing a conceptualization of the organizational functions of measurement in processes of persistence and change. Our work is grounded in theoretical understandings of micro‐institutional change that foreground processes of reproduction and disruption of organizational categories, priorities, assumptions, and practices. Drawing together measurement discourses from multiple fields of study, we identify four metaphors for organizational functions that measures can serve: carriers, windows, exercises, and drivers. We propose a conceptual framework illustrating relationships and pathways among these functions as they operate in context. We then apply the framework in the context of co‐designing three practical measures of science teacher learning in a large urban district, illustrating varied pathways through which the practical measures seemed to function, and documenting their respective affordances and constraints in driving reproduction and/or disruption in the organization's work to support science teacher learning. This line of work extends prior research on practical measurement through its focus on measures of science teacher learning and its attention to how practical measures can function to shape broader processes of organizational transformation and stability. This paper is part of the special issue on Teacher Learning and Practice within Organizational Contexts. [ABSTRACT FROM AUTHOR]

Published

2024

33. Interlocking models in classroom science.

Author

Manz, Eve and Georgen, Chris

Subjects

SCIENCE classrooms, SCIENTIFIC community, SCIENTIFIC models, RESEARCH personnel, ACHIEVEMENT gains (Education)

Abstract

Both professional and classroom‐based scientific communities develop and test explanatory models of the natural world. For students to take up models as tools for sensemaking, practice must be agentive (where students use and revise models for specific purposes) and conceptually productive (where students make progress on their ideas). In this paper, we explore principles to support agentive and conceptually productive modeling. One is that models can "do work"; that is, participate in students' sensemaking by offering resources, making gaps visible, or pushing back on modelers' understandings. A second is that working across, and seeking to align, multiple models—what we explain as interlocking models—supports models to do work. A third is that modeling activity can support fine‐grained conceptual progress. We detail how we used these ideas to guide and refine the design of a fifth‐grade investigation into the conservation of matter across phase change. We identify four ways that models participated in students' sensemaking as they interlocked: by providing contradictions, constraints, representational surplus, and gaps for students to engage with. We discuss how designing for models to be co‐participants in sense‐making and to interlock can provide productive paths forward for curriculum designers, researchers, and teachers. [ABSTRACT FROM AUTHOR]

Published

2023

34. Science Education: Outstanding Paper of the Year Award.

Subjects

CONTESTS, WRITING, PUBLISHING, SCIENCE teachers, COMPOSITION (Language arts), TEACHERS' writings

Abstract

The article announces the holding of the Outstanding Paper of the Year Award to be sponsored by John Wiley & Sons Inc., a publishing company specializing in reference books in the U.S. The author encourages individuals who are interested to join the contest by submitting one's entry paper to the editor of "Science Education" for the normal review process. Those entries that are accepted for publication will be given consideration for the said award. The Editorial Board will be the one to select the winning paper based on its significance for future science education. The author of the winning entry will be given chance to present his paper at the national convention of the National Science Teachers Association.

Published

1984

35. Inclusion for STEM, the institution, or minoritized youth? Exploring how educators navigate the discourses that shape social justice in informal science learning practices.

Author

Dawson, Emily, Bista, Raj, Colborne, Amanda, McCubbin, Beau‐Jensen, Godec, Spela, Patel, Uma, Archer, Louise, and Mau, Ada

Subjects

*SOCIAL justice, *ART centers, *NONFORMAL education, *NONBINARY people, *EDUCATORS, *TEENAGE girls

Abstract

Understanding equitable practice is crucial for science education since science, technology, engineering, and mathematics (STEM) fields and STEM learning practices remain significantly marked by structural inequalities. In this paper, building on theories of discourse and situated meaning developed by Foucault, Gee, and Sedgewick, we explore how educators navigated discourses about social justice in informal science learning (ISL) across four UK sites. We draw on qualitative, multimodal data across 5 years of a research–practice partnership between a university, a zoo, a social enterprise working to support girls and nonbinary youth in STEM, a community digital arts center, and a science center. We identify three key discourses that shaped social justice practices across all four practice–partner sites: (1) "inclusion" for STEM, (2) "inclusion" for the institution, and (3) "inclusion" for minoritized youth. We discuss how educators (n = 17) enacted, negotiated, resisted, and reworked these discourses to create equitable practice. We argue that while the three key discourses shaped the possible meanings and practices of equitable ISL in different ways, educators used their agency and creativity to develop more expansive visions of social justice. We discuss how the affordances, pitfalls, and contradictions that emerged within and between the three discourses were strategically navigated and disrupted by educators to support the minoritized youth they worked with, as well as to protect and promote equity in ISL. This paper contributes to research on social justice in ISL by grounding sometimes abstract questions about power and discourse in ISL educators' everyday work. [ABSTRACT FROM AUTHOR]

Published

2024

36. The role of embodied scaffolding in revealing "enactive potentialities" in intergenerational science exploration.

Author

Nygren, Minna O., Price, Sara, and Thomas Jha, Rhiannon

Subjects

*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]

Published

2024

37. Informing Research on Generative Artificial Intelligence from a Language and Literacy Perspective: A Meta-Synthesis of Studies in Science Education

Author

Kok-Sing Tang

Abstract

Research in languages and literacies in science education (LLSE) has developed substantial theoretical and pedagogical insights into how students learn science through language, discourse, and multimodal representations. At the same time, language is central to the functioning of generative artificial intelligence (GenAI). On this common basis concerning the role of language, this paper explores how foundational ideas from LLSE studies can inform the use of GenAI in science education. A bibliometric analysis of 412 journal articles from Web of Science provided the initial step to identify major themes and relationships in the LLSE literature. The analysis revealed four clusters of research in LLSE: reading and writing scientific text, science discourse and interaction, multilingual science classroom, and multimodality and representations. Each cluster was further analyzed through close reading of selected articles to identify and connect key constructs to the potential use of GenAI. These constructs include the interactive-constructive reading model, text genre, reading-writing integration, dialogic interaction, critical questioning, argumentation, translanguaging, hybridity, thematic pattern, modal affordance, and transduction. From these ideas and connections, the paper recommends several pedagogical principles for science educators to guide the use of GenAI. It concludes that LLSE research offers valuable insights for researchers and teachers to investigate and design the use of GenAI in science education. In turn, the impending use of GenAI also calls for a rethinking of literacy that will shape future research in LLSE.

Published

2024

38. Physics curriculum in upper secondary schools: What leading physicists want.

Author

Žák, Vojtěch and Kolář, Petr

Subjects

SECONDARY school curriculum, PHYSICISTS, PHYSICS, PHYSICS teachers, OBJECTIVISM (Philosophy)

Abstract

This paper explores the views of leading Czech physicists regarding a physics curriculum for upper secondary schools. This paper presents the first part of an effort to define starting points for a new physics curriculum in Czechia (subsequent phases would analyze the opinions of other scientists, education experts, and physics teachers regarding the physicists' ideas) and create a new physics textbook for upper secondary schools. The methodology was inspired especially by the objectivist grounded theory. We conducted in‐depth interviews about the upper secondary physics curriculum with 29 leading Czech physicists and identified 56 ideas (categories) that they agreed on (according to the interview analysis). Subsequently, a questionnaire was created based on these 56 ideas. Two years later, the same group of physicists were asked to express their opinions on the ideas on a 7‐point Likert scale. The new survey sought to clarify the relevance and permanence of the ideas, and the physicists' willingness to collaborate on constructing a physics curriculum for upper secondary schools. Four core categories—students, physics, context, and math—were identified through a comparison of the relevance of the ideas. Additionally, we compared the questionnaire answers of a physicist with their opinions during the interview and identified 43 ideas as permanent (in the 2‐year interval). Surprisingly, 26 of the 29 researchers in the initial study completed the subsequent questionnaire survey and 13 among these expressed their willingness to contribute to the development of a physics textbook for upper secondary schools. [ABSTRACT FROM AUTHOR]

Published

2023

39. “It's Just a Hot Mess”: Supporting Teacher Praxis to Challenge Barriers for Multilingual Learners.

Author

Reigh, Emily V., Miller, Emily Adah, Fackler, Ayça K., and Simani, Maria Chiara

Subjects

*PROFESSIONAL employee training, *PRAXIS (Process), *SCIENCE teachers, *LANGUAGE ability testing, *RESEARCH personnel

Abstract

ABSTRACT This paper examines a professional learning (PL) program for upper elementary teachers focused on developing instructional practices to support multilingual learners (MLLs) in science. The PL sought to support teachers' praxis, which we describe as their sense of agency to critically analyze and take action against barriers to MLLs’ opportunities to learn. We analyzed pre‐PL interviews with teachers to identify the ways that they framed MLLs from asset‐ and deficit‐based perspectives and the barriers that they identified that undermine MLLs' science learning. Then, we analyzed the extent to which the teachers' participation in the PL shifted their framing of MLLs and fostered their sense of agency to challenge the barriers faced by MLLs. We found that teachers shifted toward more asset‐based views of students' existing language resources and deepened their sense of agency to employ scaffolds that engage these resources in their own instructional practice. However, teachers continued to surface barriers in their organizational contexts, including the emphasis placed on standardized language assessments and the misalignment between English language instruction and science learning. Our analysis shows that the PL did not adequately support teachers in navigating these particular institutional barriers. Based on our analysis, we argue that teachers and science education researchers should expand their focus beyond teachers’ instructional practices and work together to remove barriers for MLLs in the larger organizational systems of schooling. [ABSTRACT FROM AUTHOR]

Published

2024

40. Students' Meaning‐Making of Nature of Science: Interaction Between Visual, Verbal, and Written Modes of Representation.

Author

Cheung, Kason Ka Ching, Oancea, Alis, and Erduran, Sibel

Subjects

*CASE method (Teaching), *TECHNICAL reports, *SOCIAL semiotics, *REPORT writing, *DISCURSIVE practices, *DISCOURSE analysis

Abstract

ABSTRACT Students' understanding of nature of science (NOS) has been largely examined primarily in written or verbal modes. The visual, verbal, and written modes are essential for students' meaning‐making of NOS. However, research has sidelined the interaction among these three modes in understanding students' collaborative discourse of NOS. Informed by theories of multimodality and social semiotics, this paper investigates the interactions between the visual, verbal, and written modes as groups of students engaged in explicit‐reflective multimodal representation during NOS instruction. Utilizing a collective case study approach, we planned NOS instruction with teachers, and videotaped how each focal group of students in two grade seven classes in Hong Kong constructed multimodal representations of NOS. Multimodal discourse analysis revealed that the three modes fulfill various purposes during students' co‐construction of multimodal representations of NOS. The interaction between the three modes facilitates meaning‐making of NOS in four ways: (a) students' re‐semiotization of discursive scientific practices into their multimodal ensembles; (b) bridging students' writing of scientific reports to scientists' social certification and dissemination; (c) connecting students' decontextualized meaning‐making to contextualized meaning‐making of methods and methodological rules; and (d) facilitating students' embodied semiosis in social organizations and interactions of science. Focusing on four episodes of co‐constructing multimodal representations of NOS, we illustrate how students' meaning‐making of NOS is multimodal in nature and how various modes have their own affordances. We discuss future research directions on how multimodality can facilitate students' meaning‐making of NOS. [ABSTRACT FROM AUTHOR]

Published

2024

41. Interaction With Exhibits: The Significance of Instrumentalization.

Author

Iłowiecka‐Tańska, Ilona and Potęga vel Żabik, Katarzyna

Subjects

*LATHE work, *RESEARCH personnel, *MACHINERY

Abstract

ABSTRACT How is it that the millions of visitors who flock to science centers each year are able to make use of the exhibits there? How do they discover the properties of previously unknown machines? How much time does it take? What is the significance of the process? An issue of particular interest to us is how visitors figure out what they can do with an exhibit and how they can do it. We interpret this as a process of instrumentalization, transforming an object into an instrument of human activity. Drawing on the Instrumented Activity Situations Model, this paper focuses on the instrumentalization of exhibits and the sense‐making process within the visitor–exhibit physical interaction. After discussing two empirical cases of children (9 and 11 years old) interacting with an open‐ended dynamical exhibit, we claim that by instrumenting an exhibit under a set of inherent constraints, visitors develop new enactive competence (coordinated motor action tethered to new perceptual orientation), just as one would learn to ride a bicycle or to work with a lathe machine. We argue that the attention of researchers, hitherto focused primarily on content‐based knowledge development, should be equally focused on the kind of procedural knowledge development evident in “making a machine one's own.” [ABSTRACT FROM AUTHOR]

Published

2024

42. How the Affordances of Different Modeling Tools Impact Kindergartener‐Constructed Models and Modeling Reasoning.

Author

Louca, Loucas T. and Zacharia, Zacharias C.

Subjects

*ARCHAEOLOGY methodology, *KINDERGARTEN, *SCIENCE education, *PHENOMENOLOGICAL theory (Physics), *FRAMES (Social sciences), *KINDERGARTEN children

Abstract

ABSTRACT This study seeks to enrich our understanding of modeling‐based learning (MbL) in kindergarten science education, investigating the influences of different modeling tools on kindergarten child‐constructed models and their modeling reasoning. Therefore, this multi‐case study aimed at providing in‐depth descriptions of how MbL was enacted by 66 kindergarteners while combining the use of three modeling tools: paper‐and‐pencil, three‐dimensional structures, and dramatic play. We studied three different classes of children engaged in MbL who studied and modeled three different physical phenomena (wildflowers' parts and their functions, dissolving substances in water, shadow formation). We varied the modeling tools to investigate the ways these tools contributed to children's MbL. Data sources included the child‐constructed models, their modeling discourse, and mechanistic reasoning. From the videotaped lesson transcripts, we developed detailed accounts of the three MbL cases, and we analysed the discourse using modeling frame analysis and mechanistic reasoning analysis, along with the model component artifact analysis of the child‐constructed models. Findings suggested that the use of different modeling tools impacts child‐constructed models and their corresponding modeling‐based mechanistic reasoning. The findings also suggest that children's representational proficiencies seem to be related to the use of a variety of modeling tools, which enabled children to talk about the possible different ways of developing models and the different affordances of the various modeling tools' representational power. We use this evidence to argue that different modeling tools may afford different modeling possibilities that kindergarten children may draw upon possibly combining with modeling resources they have (e.g., role‐playing, storytelling, drawing). [ABSTRACT FROM AUTHOR]

Published

2024

43. “Students Really Benefited From That Hybridization”: Facilitated Sensemaking in a No‐Excuses Charter Network.

Author

Lindsay, William E. and Otero, Valerie K.

Subjects

*PROFESSIONAL employee training, *PHYSICS education, *TEACHERS, *RESEARCH personnel, *SCHOOL year

Abstract

ABSTRACT This ethnographic cross‐case study examines five teachers' year‐long efforts to implement practice‐based physics instruction within the unique organizational context of a no‐excuses charter network. The teachers were attempting to adapt their didactic, rigid, and compliance‐based instructional approach to include more opportunities for students to figure out disciplinary concepts through evidence and consensus. To assist in these efforts, teachers partnered with a university‐based physics education program to redesign the network's coherent instructional infrastructure. The program provided curricular materials aligned with the Next Generation Science Standards, facilitated professional learning sessions, and assisted with instructional coaching before and during the 2018–2019 school year. Researchers collected ethnographic field notes and artifacts during professional learning sessions, partnership meetings, and bi‐weekly lesson observations of case teachers. They also conducted interviews with teachers and students. An organizational sensemaking lens was used to analyze data and informed the production of ethnographic case profiles, vignettes, and cross‐case comparisons. Findings included the constraints and affordances of a coherent instructional infrastructure for facilitating teacher sensemaking. Hybridized instructional practices also emerged across case teachers' classrooms as products of facilitated sensemaking. Implications for supporting teachers in fitting novel instructional approaches to their organizational contexts are discussed. This paper is part of the special issue on Teacher Learning and Organizational Contexts. [ABSTRACT FROM AUTHOR]

Published

2024

44. Collaborative Design Capacity for Enactment Framework: An Analytic Tool for Conceptualizing Pedagogical Design Capacity Within Social Context.

Author

Ellingson, Charlene and Roehrig, Gillian

Subjects

*MIDDLE school teachers, *CURRICULUM planning, *TEACHER influence, *SOCIAL interaction, *SOCIAL context

Abstract

ABSTRACT This study examines an urban middle school teacher design team's capacity for creating integrated science, technology, engineering, and mathematics curricula. Using Brown's pedagogical design capacity (PDC) theory, which highlights interactions between personal and curricular resources, this paper introduces an extended framework that includes social interactions as key influences on teachers' design abilities. Findings show that individual teachers' spontaneous curriculum modifications were adopted by the team, becoming collective resources for ongoing redesign and improving their design capacity. Teachers effectively used each other as resources to address unexpected challenges in integrating science, engineering, and mathematics concepts. Three types of social interactions were identified as collaborative resources: (i) Storytelling: sharing experiences to make abstract concepts actionable for curriculum development; (ii) Protocols: structured methods to address curricular problems related to integration; and (iii) Assessment “for” curriculum redesign: using assessment tools to inform and improve the curriculum. The Collective Design Capacity for Enactment framework is introduced to describe PDC within a social context, highlighting the importance of social interactions in bridging curriculum use and development, thus extending the literature on PDC. [ABSTRACT FROM AUTHOR]

Published

2024

45. Not the only novice in the room: Partnerships and belongingness in a research immersion program.

Author

Ayers, Katherine Ann, Pennella, Robyn Ann, Mohorn‐Mintah, Olayinka, Jasper, Summer Jane, and Nordstrom, Susan Naomi

Subjects

*FEMINISM, *STEREOTYPES, *COOPERATIVE education, *FEMINIST theory, *GENDER stereotypes

Abstract

Lack of access to STEMM mentors has been identified as a critical barrier to biomedical research careers, leading to a lack of diversity in this field. To address such a barrier, the National Institutes of Health invested funds to support institutions in developing research immersion programs to provide "underrepresented" students with mentored research experiences. While providing access and opportunity for research experiences is an important equity endeavor, a focus solely on broadening participation neglects the role of institutions in perpetuating hegemonic views of science. Institutions often fail to recognize how entanglements of affect and emotion shape youth experiences in these programs and work to (de)legitimize their sense of belonging in science and perpetuate the notion of science as for an exclusive few. In this paper, we describe findings from a project aimed at understanding the entanglement of emotion and affect in a research immersion program and how these entanglements shaped participants' sense of belongingness in the program and research more broadly. Drawing on a poststructural feminist framework, we come to understand how individual histories and emotional experiences with racial and gender stereotypes work at the meta‐affective level to contract feelings of belongingness in science for students. [ABSTRACT FROM AUTHOR]

Published

2024

46. Conceptualizing community scientific literacy: Results from a systematic literature review and a Delphi method survey of experts.

Author

Busch, K. C. and Rajwade, Aparajita

Subjects

*SCIENTIFIC literacy, *SCIENCE education, *CULTURAL activities, *ACTORS, *DELPHI method

Abstract

The predominant conceptualization of scientific literacy occurs on the micro scale of an individual person. However, scientific literacy can also be exhibited at the meso scale by groups of people in communities of place, practice, or interest. What comprises this community level scientific literacy (CSL) is both understudied and undertheorized. In this paper, we utilized a systematic literature review to describe how CSL is characterized in the extant literature and a Delphi survey of experts to elicit more current thought. Guided by cultural‐historical activity theory, inductive and deductive analyses produced seven elements of CSL and their constituent characteristics: (1) resources, (2) attributes of those resources, (3) actors, (4) interactions between actors, (5) contexts, (6) topics, and (7) purposes. The typology created through this process is meant to be generative, serving as a starting point for continuing refinement within science education and other fields related to science learning and knowing. [ABSTRACT FROM AUTHOR]

Published

2024

47. Editorial: What Should Be Published?

Author

Klopfer, L. E.

Subjects

SCIENCE education, EDUCATION, PUBLICATIONS, INFORMATION resources, PERIODICAL selection

Abstract

The article comments on the principle that only papers which represent a genuine contribution to the literature of science education should be published in the journal. The author has developed guidelines for determining what a genuine contribution to the literature consists of. These guidelines are stated as considerations about the paper's significance and organization and the quality of the writing.

Published

1980

48. Beginning with the end in mind: Meaningful and intentional endings to equitable partnerships in science education.

Author

Santos, Stephany and Scipio, Déana

Subjects

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

49. Equity and justice in science education: Toward a pluriverse of multiple identities and onto‐epistemologies.

Author

Kayumova, Shakhnoza and Dou, Remy

Subjects

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]

Published

2022

50. Present in class yet absent in science: The individual and societal impact of inequitable science instruction and challenge to improve science instruction.

Author

Jones, Tamecia R. and Burrell, Shondricka

Subjects

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