Opening up curricula to redistribute epistemic agency: A framework for supporting science teaching

Ko, Mon-Lin Monica; Krist, Christina

doi:10.1002/sce.21511

Cited by 65 publications

(96 citation statements)

References 105 publications

(160 reference statements)

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“…Classrooms that center on the pursuit of students’ own ideas also provide opportunities for authentic engagement in disciplinary practices and sense‐making (Ball, 1993; Colley & Windschitl, 2016; Engle & Conant, 2002; Hammer, 1997; Schwarz, Passmore, & Reiser, 2017). Some authors highlight that this kind of pursuit recognizes students’ agency in the construction of ideas (Duckworth, 2001; Ko & Krist, 2019; Sikorski, 2016). Finally, responsive instruction—and particularly its framing of students’ ideas as generative beginnings for their learning—shifts away from a “dichotomous view” (Warren, Ballenger, Ogonowski, Rosebery, & Hudicourt‐Barnes, 2001, p. 531) of student thinking, which focuses on the compatibility (or incompatibility) of students’ everyday ways of knowing and those of scientists.…”

Section: Rt In the Literaturementioning

confidence: 99%

Truth, success, and faith: Novice teachers’ perceptions of what's at risk in responsive teaching in science

Robertson

Elliott

2020

Science Education

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Responsive teaching-or teaching that builds from the "seeds of science" in student thinking-is depicted in STEM education literature as both important and challenging. U.S. science education reform has been calling for teachers to enact instruction that attends to and takes up the substance of students' STEM ideas; however, responsive teaching represents a substantial shift from the current state of affairs in most U.S. classrooms, where content is often presented authoritatively as facts, definitions, and algorithms, with little consideration of student thinking. Drawing on language from literature about sense-making, this paper identifies some of the "vexation points" that novice science teachers face as they consider implementing responsive teaching practices in science-that is, what doesn't make sense, to teachers, about this instructional approach. In particular, we show that novice teachers express moral concerns about responsive teaching; themes in their written reflections suggest that they perceive responsive teaching to put truth, success, and faith at risk. We argue that though these concerns originally seem distinct from the institutional constraints to responsive teaching posed by the literature, teachers' concerns about truth, success, This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Section: Rt In the Literaturementioning

confidence: 99%

Truth, success, and faith: Novice teachers’ perceptions of what's at risk in responsive teaching in science

Robertson

Elliott

2020

Science Education

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“…Sendo mobilizados para o Levou à construção de et al, 2019). Concordamos com autores que têm indicado a necessidade de posicionar os estudantes como agentes epistêmicos, ao invés de simplesmente demonstrarem uma aprendizagem declarativa de processos científicos ou a reprodução de habilidades relacionadas ao chamado "método científico" (Kelly & Licona, 2018, Ko & Krist, 2019, Stroupe et al, 2019.…”

Section: Engajamento Em Práticas Do Par [Epistêmico+social]unclassified

“…Por um lado, pesquisadores têm indicado que explicar como funcionam os processos da ciência, ensinando cada passo da metodologia científica ou desenvolvendo atividades experimentais para que os alunos confirmem o conhecimento conceitual não significa, necessariamente, introduzi-los no legado epistêmico da ciência (Stroupe, 2015;Manz, Lehrer & Schauble, 2020;Ko & Krist, 2019). Seria necessário gerar oportunidades para que estudantes vivenciassem a construção do conhecimento, se apropriando daquilo que estão fazendo a partir de critérios utilizados pela ciência e tomando decisões coletivamente (Carvalho, 2018;Ko & Krist, 2019).…”

Section: Introductionunclassified

O Ensino de Ciências por Investigação em Construção: Possibilidades de Articulações entre os Domínios Conceitual, Epistêmico e Social do Conhecimento Científico em Sala de Aula

Franco

Munford

2020

RBPEC

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Neste artigo, analisamos como estudantes construíram discursivamente articulações entre os domínios conceitual, epistêmico e social do conhecimento científico. A turma investigada estava no 1° ano do Ensino Fundamental e estudava a biologia de um inseto. Para construção e análise de dados, utilizamos aspectos da Etnografia em Educação. Foi realizada observação participante, registros em áudio e vídeo, além de coleta de artefatos produzidos pelos estudantes. Os resultados indicam que o uso de recursos instrucionais, organizados em torno do trabalho com perguntas, geraram diferentes caminhos para as articulações entre os três domínios, evidenciadas no discurso oral dos participantes. A ênfase no par [epistêmico+social] conferiu um caráter mais investigativo ao contexto instrucional, possibilitando a melhor compreensão do processo de construção do ensino de ciências por investigação. Discutimos implicações para a prática pedagógica e para pesquisa em Educação em Ciências.

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“…On the one hand, researchers have shown that explanation of how scientific processes work, teaching each step of scientific methodology or developing experimental activities so that the students may confirm conceptual knowledge, does not necessarily mean their introduction into the epistemic legacy of science (Stroupe, 2015;Manz et al, 2020;Ko & Krist, 2019). It would be necessary to create new opportunities so that the students could experience the construction of knowledge, appropriating whatever they are doing based on criteria used by science and collectively taking decisions (Carvalho, 2018;Ko & Krist, 2019).…”

Section: Introductionmentioning

confidence: 99%

“…In spite of these recommendations, as Ko and Krist (2019) emphasize, Science curricula are still largely based on a central axis of well-defined conceptual goals. With the teacher's work carried out around this axis, there is still a lingering tension with regard to how the concepts are taught.…”

Section: Introductionmentioning

confidence: 99%

Inquiry-Based Science Teaching under Construction: Possibilities of Articulations Between Conceptual, Epistemic and Social Domains Within Scientific Knowledge in the Classroom

Franco¹,

Munford

2020

RBPEC

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In this paper, we analyse how a class discursively constructed articulations between the conceptual, epistemic and social domains of scientific knowledge. The first-grade class studied biological aspects of an insect. For data collection and analysis, we use Ethnography in Education as logic of inquiry. Our results indicate that the use of instructional resources, organised around questions, generated different ways of articulation between the three domains, evidenced in the participants’ oral speech. The emphasis on the [epistemic+social] pair has given a more investigative character to the instructional context under construction. We also discuss implications for pedagogical practice and research in science education.

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Opening up curricula to redistribute epistemic agency: A framework for supporting science teaching

Cited by 65 publications

References 105 publications

Truth, success, and faith: Novice teachers’ perceptions of what's at risk in responsive teaching in science

Truth, success, and faith: Novice teachers’ perceptions of what's at risk in responsive teaching in science

O Ensino de Ciências por Investigação em Construção: Possibilidades de Articulações entre os Domínios Conceitual, Epistêmico e Social do Conhecimento Científico em Sala de Aula

Inquiry-Based Science Teaching under Construction: Possibilities of Articulations Between Conceptual, Epistemic and Social Domains Within Scientific Knowledge in the Classroom

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