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1.
Lee Irene Grover Shuchi Martin Fred Pillai Sarita Malyn-Smith Joyce 《Journal of Science Education and Technology》2020,29(1):1-8
This article provides an introduction for the special issue of the Journal of Science Education and Technology focused on computational thinking (CT) from a disciplinary perspective. The special issue connects earlier research on what K-12 students can learn and be able to do using CT with the CT skills and habits of mind needed to productively participate in professional CT-integrated STEM fields. In this context, the phrase “disciplinary perspective” simultaneously holds two meanings: it refers to and aims to make connections between established K-12 STEM subject areas (science, technology, engineering, and mathematics) and newer CT-integrated disciplines such as computational sciences. The special issue presents a framework for CT integration and includes articles that illuminate what CT looks like from a disciplinary perspective, the challenges inherent in integrating CT into K-12 STEM education, and new ways of measuring CT aligned more closely with disciplinary practices. The aim of this special issue is to offer research-based and practitioner-grounded insights into recent work in CT integration and provoke new ways of thinking about CT integration from researchers, practitioners, and research-practitioner partnerships.
相似文献2.
Susan Mathieson 《Higher Education》2012,63(5):549-564
There is a growing awareness of the need to move beyond generic approaches to teaching, learning and assessment (TLA) to consider
the importance of context in shaping TLA practices. However, efforts to engage with context have focused primarily on disciplinary
epistemologies and in particular the differences between hard, soft, pure and applied disciplines. This paper argues that
disciplines should be considered not just in terms of epistemological differences, but as socially situated practices. This
research is based on interviews with 30 academics across 4 merging disciplinary workgroups of a South African university.
A framework for exploring TLA workgroup cultures is proposed, drawing on a modified communities of practice theory (COPT),
that moves beyond functionalist accounts of socially situated practices in COPT to focus on how departmental TLA cultures
mediate between individual agency and a range of structural factors. When looking at disciplinary TLA cultures through this
lens this research found that what was more significant than the differences between disciplines based on epistemological
difference were differences in the ways academic workgroups mediated between the knowledge structures of the discipline and
the challenges of a society in transition with competing expectations of students, knowledge, the state, marketization, and
the demands for reconstruction and development. It was thus the work done in localised workgroups on disciplinary epistemologies
in response to a range of contextual factors that was found to be more significant than differences between the disciplines
in defining TLA cultures. 相似文献
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Annemie Struyf Haydée De Loof Jelle Boeve-de Pauw Peter Van Petegem 《International Journal of Science Education》2019,41(10):1387-1407
In this paper, we explore how students’ engagement varies in different STEM (Science, Technology, Engineering, Mathematics) learning environments. More specifically, we focus on the significance of a learning environment applying an integrated STEM (iSTEM) approach and the significance of STEM learning environments’ student-centredness. Moreover, we explore the relative importance of different student-centred principles (lesson plan and implementation, communicative interactions, student-teacher relationships) for students’ engagement in the STEM learning environment. Applying a mixed-method approach, we draw from observational data of 24 STEM lessons in combination with data from seven focus groups with 67 grade 9 students. The quantitative findings, based on the observational data, show that a learning environment applying an iSTEM approach seems to support students’ engagement. Further investigation made it clear that the student-centredness in this learning environment is especially significant. Regarding the specific student-centred principles, all principles had a significant impact on students’ engagement. The focus group data make clear that, besides student-centredness, the integrative aspect and the use of authentic real-world problems in iSTEM can also be engaging for students. These results indicate that iSTEM is a good practice to engage students in the STEM learning environment, as it facilitates teachers’ implementation of a general student-centred approach. 相似文献
5.
Recent science educational policy reform efforts call for a shift toward practice-focused instruction in kindergarten–Grade 12 science education. We argue that this focus on engaging students in epistemic practices of science opens up new possibilities for the design of learning environments that support the stabilization of learners’ science-linked identities. Learning environments often assume that youth come to them without relevant identity resources to contribute or that the learning environment has no bearing on the disciplinary identification of individuals. We conducted this research while developing a year-long course to teach high school biology by engaging youth in interest-driven projects focused on contemporary topics. We explored how engaging youth in the epistemic practices of science in culturally expansive ways supported their science-linked identification. We propose a model grounded in social practice theory that describes aspects of students’ stabilization of disciplinary identities. We found that (a) deepening participation in scientific practices is linked to whether or not youth have opportunities to coordinate their engagement with their existing identities; and (b) material, relational, and ideational identity resources and qualities of the learning environment mediate how youth stabilize disciplinary identities in interactional moments. 相似文献
6.
Laura Avendano Jessica Renteria Sarah Kwon 《Journal of educational administration and history》2019,51(1):66-82
ABSTRACTSTEM Education is sweeping the United States, prompted primarily by the recent adoption of the Next Generation Science Standards. The surge in interest in STEM Education is beneficial for local schools and communities, and promises to positively impact students, teachers, school leaders, community members, and the future workforce. Unfortunately, inequitable hegemonic structures and practices limit urban students’ access to knowledge, resources, and a comprehensive and fair educational experience. This article explores the STEM activities in place at the Center for Innovation in STEM Education (CISE), at a local university in greater Los Angeles. From a historical context, CISE data show that an approach to STEM education that focuses on serving underrepresented populations by creating a pipeline, can serve as an example for K-12 schools, universities, and educational leaders seeking equitable practices in the field of STEM education. We identify implications for leadership development for school leaders, teacher leaders, and districts. 相似文献
7.
Marta Civil 《Cultural Studies of Science Education》2016,11(1):41-59
This article examines STEM learning as a cultural process with a focus on non-dominant communities. Building on my work in funds of knowledge and mathematics education, I present three vignettes to raise some questions around connections between in-school and out-of-school mathematics. How do we define competence? How do task and environment affect engagement? What is the role of affect, language, and cognition in different settings? These vignettes serve to highlight the complexity of moving across different domains of STEM practice—everyday life, school, and STEM disciplines. Based on findings from occupational interviews I discuss characteristics of learning and engaging in everyday practices and propose several areas for further research, including the nature of everyday STEM practices, valorization of knowledge, language choice, and different forms of engagement. 相似文献
8.
Governments worldwide are advocating for STEM curricula as essential to economic viability but the opportunity for STEM to create a re-envisioned world where there is equal access to wealth, opportunities, and privileges is less prominent. The literature has also not clearly articulated how the combination of the individual disciplines areas: science, technology, engineering and maths should be structured to form a cohesive paradigm within a contextual real-world problem. This paper details one example of a STEM unit had with an equity and social justice agenda. The teacher orchestrated a range of learning experiences to develop student intellectual and emotional engagement with the learning experience sequence, which was to design a pair of shoes for students in a refugee camp using resources that might be available there. Her teaching approach involved the choreography of student attention to the different dimensions of STEM. While all were in play particular disciplinary concepts and practices were foregrounded at different times. We propose that teaching STEM involves a choreography of focus on the different disciplines of Science, Technology, Engineering and Maths, with the relative weight at any one time and overall depending on the nature of the task that is to be accomplished. 相似文献
9.
Michael Domínguez 《师资教育杂志》2019,45(1):47-62
ABSTRACTDespite a rich repertoire of inventive and robust practices, and stated commitments to equity, social justice, and diversity, teacher education has continued to struggle to produce educators capable of enacting culturally sustaining pedagogies, and providing historically marginalized youth and communities with meaningful learning opportunities. This paper contends that ontological distance between educators and youth of colour, and the ways Eurocentric epistemologies exist as a colonial ‘zero point’ in teacher education praxis, are a core element of this existential crisis facing teacher educators. Drawing on decolonial theory and epistemologies of the global south, I suggest that teacher education is in need of epistemic innovation; radically revising our approaches to preparing educators by anchoring them in the epistemic and ontological perspectives of the global south, and in so doing, crafting pedagogical imaginaries through which we might disrupt the ways coloniality lives (often invisibly) in, and is reproduced by, our assumptions about best practices, ways of being, and measures of success. Such a decolonial approach to innovation in teacher education holds promise for ensuring our praxis, and the educators we prepare, are positioned to engage with a hyperdiverse world in humanizing ways. 相似文献
10.
Miwa A. Takeuchi Pratim Sengupta Marie-Claire Shanahan Jennifer D. Adams Maryam Hachem 《Studies in Science Education》2020,56(2):213-253
ABSTRACT Science, Technology, Engineering and Mathematics (STEM) education garnered significant attention in recent years and has emerged as a key field of research globally. The goal of this article is to offer a critical review of how STEM education and its transdisciplinarity were defined and/or positioned in empirical studies published during the early formulation of the field. In particular, we sought to identify how these studies conceptualise learners and learning and portray the underlying assumptions in light of the macrosystemic discourses that often serve as ideological forces in shaping research and practice of STEM education. We examined 154 peer-reviewed articles published between January 2007 and March 2018 and analysed them along several emergent dimensions: their geospatial focus, focal disciplinary areas, methodological and theoretical assumptions, and major findings. Grounded in a critical transdisciplinary perspective, we used critical discourse analysis to identify how macrosystemic and institutionalised forces – overtly and implicitly – shape what counts as STEM education research, including its goals and conceptualisations of learners and learning. Our analysis highlights the need for aesthetic expansion and diversification of STEM education research by challenging the disciplinary hegemonies and calls for reorienting the focus away from human capital discourse. 相似文献
11.
In response to the leaky STEM pipeline, particularly for girls, many schools have introduced integrated STEM (iSTEM) programs to enable students to solve problems using skills from each STEM area and hopefully enhance their interest in continuing with STEM subjects in senior-high school and university. We investigated whether gender differences in students’ perceptions of classroom emotional climate and attitudes to STEM depend on whether students are undertaking iSTEM projects as part of a multidisciplinary curriculum (S, T, E and M) or unidisciplinary curriculum (S, T, E or M) and also whether they attend a government or nongovernment coeducational school. The sample consisted of 256 students in 24 coeducational grade 7–9 classes in 8 government schools and 157 students in 12 coeducational grade 7–10 classes in 6 nongovernment schools. Whereas boys were significantly more positive than girls in perceptions of clarity, motivation, consolidation and attitudes to iSTEM in coeducational government schools, there were no significant gender differences in coeducational nongovernment schools. Students of both genders in government schools were significantly more positive about all aspects of classroom emotional climate and attitudes than students of both genders in nongovernment schools, even after controlling for socioeconomic status. Also, females were slightly more positive about classroom emotional climate and in their attitudes in multidisciplinary STEM classes in government schools. This study suggests that multidisciplinary STEM classes could motivate girls to pursue STEM subjects in senior-high school and at university.
相似文献12.
Recent years have seen a surge in educational efforts to foster the development of learners’ epistemologies. Our 1st aim is to problematize some current assumptions about the goals of epistemic education and to argue that existing models of lay or expert epistemologies cannot directly translate into educational goals. Our 2nd aim is to present a fresh integrative analysis of the goals of epistemic education based on both philosophical arguments and empirical research. Synthesizing these sources, we propose that the overarching purpose of epistemic education is to promote learners’ apt epistemic performance, defined as performance that achieves valuable epistemic aims through competence. We identify 5 key aspects of epistemic performance that are important to achieving this goal: engaging in reliable cognitive processes that lead to the achievement of epistemic aims, adapting epistemic performance to diverse situations, metacognitively regulating and understanding epistemic performance, caring about and enjoying epistemic performance, and participating in epistemic performance together with others. Each of these aspects involves competent engagement with epistemic aims and value, epistemic ideals, and reliable epistemic processes. Our analysis can help educators plan and evaluate epistemic education and suggests ways in which current curricula might be better designed to promote epistemic growth. 相似文献
13.
Abbey MacDonald Kit Wise Kate Tregloan Wendy Fountain Louise Wallis Neil Holmstrom 《The International Journal of Art & Design Education》2020,39(1):227-241
A significant contention underpinning the commentary around STEM / STEAM is the evidence of discipline hierarchies, and inherent binary perspectives and/or biases that lend themselves to privileging one or more disciplines over another in an interdisciplinary education context. The current focus on increasing engagement with STEM in Australian schools provides opportunities to explore how the creative and liberal arts, and arts‐based approaches to teaching and learning are being adopted to significantly enhance teaching and learning outcomes in and for STEM education. This article examines how design for a STEAM education programme evolves and is adopted in an Australian context. Tasmania represents one of the most vibrant creative communities in Australia. At the same time it has one of the lowest levels of educational attainment. Entrenched teaching habits and disciplinary hierarchies often create significant barriers to the implementation of STEAM despite genuine goodwill and enthusiasm for STEAM among teachers and within schools. This article argues that, despite the contrasting dynamics extant in the Tasmanian educational context, it is here that some of the nation’s most curious and exciting examples of STEAM teaching and learning have emerged. It offers an example of an innovative learning project and proposes the means by which these disciplinary strands have been effectively entwined. 相似文献
14.
In this paper, we identify several approaches engineering faculty use to teach engineering topics. We report results from an exploratory study, consisting of 16 faculty interviews from five diverse institutions of higher education. We focus specifically on engineering faculty because the engineering faculty teaching culture is not well explored, even though there are many ongoing projects to reform engineering education. The results from this study contribute to efforts currently underway to improve teaching and learning in engineering education, as well as in higher education. Results from this study highlight the disciplinary nature of teaching in the engineering domain. Furthermore, our results can serve as a foundation to compare teaching approaches in other disciplines, or to potential changes in engineering teaching practices. 相似文献
15.
Around the world, there is a growing interest in integrated STEM (science, technology, engineering, mathematics) education. Many of the calls for integrated STEM emphasize the need for students to engage with complex STEM problems that cut across multiple fields. Yet there is a need to clarify the nature of those problems and differentiate STEM problems from those of different kinds. This conceptual work examines the nature of STEM problems in order to inform pre-college educational efforts in STEM. A typology is introduced that situates STEM problems within a broader space of problems within STEM and non-STEM fields, and the characteristics of STEM problems are described. The typology and characteristics are then applied to different approaches to STEM instruction. A key conclusion is that many integrated STEM education efforts tend to focus on STEM problems that are narrowly framed and that do not include attention to social, cultural, political, or ethical dimensions. However, alternative instructional approaches exist that re-introduce those missing dimensions. If STEM education is to prepare students to grapple with complex problems in the real world, then more attention ought to be given to approaches that are inclusive of the non-STEM dimensions that exist in those problems.
相似文献16.
为了更好促进美国STEM教育改革,美国出台了《STEM2026:STEM教育创新愿景》。该报告提出:STEM教育要从娃娃抓起;STEM教育要丰富生源,让更多弱势群体接受优质STEM教育;STEM教育要从校内走向校外,构建校内外一体化的STEM教育环境;STEM课程要注重学科的交叉整合,不仅要实现科学、技术、工程和数学之间的融合,还要重视STEM与其他学科的融合;STEM教学要融入游戏且具有风险性,让学生在探究中感知STEM教育的魅力,且养成不畏险阻的科学精神;STEM考评方式要多样且能促进学生更好地学习,为此考评方式要创新且具操作性。 相似文献
17.
Reflection is not a new concept in the teaching of higher education and is often an important component of many disciplinary courses. Despite this, past research shows that while there are examples of rich reflective strategies used in some areas of higher education, most approaches to, and conceptualisations of, reflective learning and assessment have been perfunctory and inconsistent. In many disciplinary areas, reflection is often assessed as a written activity ‘tagged onto’ assessment practices. In creative disciplines, however, reflective practice is an integral and cumulative form of learning and is often expressed in ways other than in the written form. This paper will present three case studies of reflective practice in the area of Creative Industries in higher education – Dance, Fashion and Music. It will discuss the ways in which higher education teachers and students use multimodal approaches to expressing knowledge and reflective practice in such a context. The paper will argue that unless students are encouraged to participate in deep reflective disciplinary discourse via multi-modes then reflection will remain superficial in the higher education context. 相似文献
18.
美国整合性STEM教育框架基于STEM理念,阐明对整合性STEM的共识性理解,首次提供了涵盖K-12阶段的整合性STEM课程资源,绘制了STEM课程路线图,提供在课堂层次实施STEM的课程路线,为整合STEM方法的系统转型提供支持,以数据驱动STEM教学与评价,制定有效的STEM课程项目和STEM教师专业发展框架,推动整合性STEM课程实施与教学方法改革,培养学生运用STEM知识去解决真实问题,提高创新、批判性思维和解决问题的能力,培养21世纪技能。美国整合性STEM教育框架的课程理念、课程路径与课程支持系统,对我国在基础教育阶段推进STEM教育改革,开发全学段的STEM教育整体框架和课程路线图可以提供有益借鉴,包括基于标准的整合性STEM课程框架,赋能STEM教师的整合性教学实践和推动整合性STEM教育的系统性转变。 相似文献
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With the advent of the Next Generation Science Standards in engineering (NGSS, 2013), teachers of multiple subject areas are being asked to do more than ever before—not only to teach engineering content in the K-12 classroom but also to engage students in authentic disciplinary reading and writing as part of content learning. These standards sound good, but they beg several questions; namely, what do we know about how, why, and when do engineers read and write as they do their work every day? What do teachers charged with engineering education know about the daily practices of engineers, let alone the literacy practices? In short, little is known about the literacy practices of engineers in the course of their daily work. This article draws on participant observation, interviews, and document analysis of one research engineering laboratory to illustrate the literacy practices of one group of engineers and begins to draw implications from this work for teacher practice in achieving the NGSS engineering education standards. 相似文献
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