Where practice and theory intersect in the chemistry classroom: using cogenerative dialogue to identify the critical point in science education

This paper argues for an inclusive model of science education practice that attempts to facilitate a relationship between “science and all” by paying particular attention to the development of the relationship between the teacher, students and science. This model hinges on the implementation of cogenerative dialogues between students and teachers. Cogenerative dialogues are a form of structured discourse in which teachers and students engage in a collaborative effort to help identify and implement positive changes in classroom teaching and learning practices. A primary goal of this paper is to introduce a methodological and theoretical framework for conducting cogenerative dialogue that is accessible to classroom teachers and their students. I propose that researchers must learn to disseminate their findings to teachers in ways that are practical, in that they provide teachers with information needed to make concrete connections between the research and their teaching, while continuing to make available the theories that support their findings. Using an integration research framework in conjunction with a temporality of learning model, I introduce a method of disseminating research findings that provides both classroom teachers and researchers with access to different forms of knowledge about cogenerative dialogues in the same paper. In doing so, this article examines the relationships between teacher knowledge and researcher knowledge by exploring the practical application of cogenerative dialogues for classrooms teachers and the theoretical implications of using cogenerative dialogues for researchers.

The development of dynamic inquiry performances within an open inquiry setting: A comparison to guided inquiry setting

Dynamic inquiry learning emphasizes aspects of change, intellectual flexibility, and critical thinking. Dynamic inquiry learning is characterized by the following criteria: learning as a process, changes during the inquiry, procedural understanding, and affective points of view. This study compared the influence of open versus guided inquiry learning approaches on dynamic inquiry performances among high‐school biology students. We hypothesized that open inquiry students who engage in the inquiry process from its initial stage, participating in the decision making process of asking inquiry questions and planning all aspects of the inquiry, will outperform students who experienced guided inquiry, in terms of developing dynamic inquiry performances. Students were divided into two groups: guided and open inquiry learning approaches. Both groups were followed throughout their 2‐year inquiry learning process. The data sources included interviews, students' inquiry summary papers, logbooks, and reflections. A quantitative content analysis of the two groups, using a dynamic inquiry performances index, revealed that open inquiry students used significantly higher levels of performances in the criteria “changes during inquiry” and “procedural understanding.” However, the study's results indicated no significant differences in the criteria “learning as a process” and “affective points of view.” The implementation of dynamic inquiry performances during inquiry learning may shed light on the procedural and epistemological scientific understanding of students conducting inquiries. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 46: 1137–1160, 2009     

Teacher use of evidence to customize inquiry science instruction

This study investigated how professional development featuring evidence‐based customization of technology‐enhanced curriculum projects can improve inquiry science teaching and student knowledge integration in earth science. Participants included three middle school sixth‐grade teachers and their classes of students (N = 787) for three consecutive years. Teachers used evidence from their student work to revise the curriculum projects and rethink their teaching strategies. Data were collected through teacher interviews, written reflections, classroom observations, curriculum artifacts, and student assessments. Results suggest that the detailed information about the learning activities of students provided by the assessments embedded in the online curriculum motivated curricular and pedagogical customizations that resulted in both teacher and student learning. Customizations initiated by teachers included revisions of embedded questions, additions of hands‐on investigations, and modifications of teaching strategies. Student performance improved across the three cohorts of students with each year of instructional customization. Coupling evidence from student work with revisions of curriculum and instruction has promise for strengthening professional development and improving science learning. © 2010 Wiley Periodicals, Inc. J Res Sci Teach 47: 1037–1063, 2010     

Lucid education: resisting resistance to inquiry

Within the community of inquiry literature, the absence of the notion of genuine doubt is notable in spite of its pragmatic roots in the philosophy of Charles Saunders Peirce, for whom the notion was pivotal. We argue for the need to correct this oversight due to the educational significance of genuine doubt—a theoretical and experiential understanding of which can offer insight into the interrelated concepts of wonder, fallibilism, inquiry and prejudice. In order to detail these connections, we reinvigorate the ideas of Peirce by borrowing the language and concepts of Albert Camus, at the same time demonstrating their unlikely congruence. In particular, we argue for the necessity of genuine doubt along with the need for the presence of a diversity of prejudices as a starting point for genuine inquiry.     

Teacher education students using TPACK in science: a case study

Teacher education is in the grip of change. Due to the new Australian Curriculum, no longer is it possible to plan and implement lessons without considering the inclusion of Information and Communication Technologies. Simply knowing about the latest technology gadgets is not enough. Information literacy is essential in today’s information-rich learning and working environment. Students and teachers must be able to engage with diverse learning technologies efficiently and effectively in the search for the “right information” at the “right time” for the “right purpose”. Key information literacy and inquiry skills have been recognised as vital learning goals by the Australian Curriculum Assessment and Reporting Authority and the International Society for Technology in Education and are thus critical in science teacher education. This paper examines the overlap of technology, pedagogy and science content in the Technological Pedagogical and Content Knowledge (TPACK) framework and its affordances for science educators, at the intersection between technology knowledge, science pedagogy (information literacy and inquiry) and science content knowledge. Following an introduction of the TPACK framework for science education, the paper reports the research findings, which illustrate that 90% of pre-service teachers thought the experimental unit improved their understanding of the inquiry process, 88% reported more confidence in their understanding of science concepts and 94% of students reported an increase in their knowledge and confidence of Web 2.0 tools in supporting scientific inquiry in science. The implications of this study are that the online inquiry improved students’ knowledge and confidence in the skills and processes associated with inquiry and in science concepts.     

Learning to teach science as inquiry in the rough and tumble of practice

This study examined the knowledge, beliefs and efforts of five prospective teachers to enact teaching science as inquiry, over the course of a one‐year high school fieldwork experience. Data sources included interviews, field notes, and artifacts, as these prospective teachers engaged in learning how to teach science. Research questions included 1) What were these prospective teachers' beliefs of teaching science? 2) To what extent did these prospective teachers articulate understandings of teaching science as inquiry? 3) In what ways, if any, did these prospective teachers endeavor to teach science as inquiry in their classrooms? 4) In what ways did the mentor teachers' views of teaching science appear to support or constrain these prospective teachers' intentions and abilities to teach science as inquiry? Despite support from a professional development school setting, the Interns' teaching strategies represented an entire spectrum of practice—from traditional, lecture‐driven lessons, to innovative, open, full‐inquiry projects. Evidence suggests one of the critical factors influencing a prospective teacher's intentions and abilities to teach science as inquiry, is the teacher's complex set of personal beliefs about teaching and of science. This paper explores the methodological issues in examining teachers' beliefs and knowledge in actual classroom practice. © 2007 Wiley Periodicals, Inc. J Res Sci Teach 44: 613–642, 2007.     

A critical cultural inquiry into insider issues in South Korean art education

Over the past decades, many art advocates have argued for the intrinsic value of learning in the arts. Nevertheless, the arts continue to struggle to find a secure place within the school curriculum. Concerned about the arts’ impact on classroom practice, this paper aims to cast light on diverse realities constructed by art teachers as insiders in marginal contexts. This will be done by reviewing a critical cultural inquiry into art education practice in South Korea. Two interpretive analyses of individual teachers’ life stories have disclosed the practitioners’ relationships to established power dynamics between the dominant practice and a developing alternative practice network within the system. The discussion focuses on the inherent contradictions and opportunities identified within the context of Korean education. This paper provides cultural resources for conscious professional transformation of practitioners and contributes to broader discussions on the socio-educational status of art in education.     

A metasynthesis of the complementarity of culturally responsive and inquiry‐based science education in K‐12 settings: Implications for advancing equitable science teaching and learning

Employing metasynthesis as a method, this study examined 52 empirical articles on culturally relevant and responsive science education in K‐12 settings to determine the nature and scope of complementarity between culturally responsive and inquiry‐based science practices (i.e., science and engineering practices identified in the National Research Council's Framework for K‐12 Science Education). The findings from this study indicate several areas of complementarity. Most often, the inquiry‐based practices Obtaining, Evaluating, and Communicating Information, Constructing Explanations and Designing Solutions, and Developing and Using Models were used to advance culturally responsive instruction and assessment. The use and development of models, in particular, allowed students to explore scientific concepts through families’ funds of knowledge and explain content from Western science and Indigenous Knowledge perspectives. Moreover, students frequently Analyzed and Interpreted Data when interrogating science content in sociopolitical consciousness‐raising experiences, such as identifying pollution and asthma incidences in an urban area according to neighborhood location. Specific inquiry‐based practices were underutilized when advancing culturally responsive science instruction, though. For example, Using Mathematics and Computational Thinking and Engaging in Argument from Evidence were infrequently encountered. However, culturally responsive engineering‐related practices were most often connected with these, and thus, represent potential areas for future complementarity, particularly as the United States embraces the Next Generation Science Standards. In considering innovative directions for advancing equitable science education, several possibilities are discussed in light of the findings of this study.© 2017 Wiley Periodicals, Inc. J Res Sci Teach 54:1143–1173, 2017     

The degree to which UAE primary science workbooks promote scientific inquiry

This research investigated Grades 5 and 6 science workbooks for the degree to which they promote scientific inquiry abilities, opportunities that students had to acquire these abilities and the obstacles hindering students from implementing them. A document review technique and a constant comparative method were applied sequentially. A total of 58 instigative logs were scrutinized. Findings revealed that while the activities allowed students to use appropriate techniques and tools to collect and interpret data, and use their inquiry abilities related to implement investigation plans, they did not allow students real opportunities to formulate questions, plan for simple investigations, write conclusions, or communicate investigations. A total of 15 Grade 5 and 6 science teachers were asked to report their perceptions of the students’ role in implementing identified abilities. A one‐way analysis of variance revealed that there was a significant difference between students who individually implemented the inquiry abilities and students who were supported by the teacher or by other students. Obstacles that hindered students from implementing identified inquiry abilities included teachers’ intensive supports, students’ limited background or skills, and materials and instrument shortages. The study concluded with recommendations for policy, practice, and future research.     

An investigation of teacher impact on student inquiry science performance using a hierarchical linear model

Teachers play a central role in inquiry science classrooms. In this study, we investigate how seven teacher variables (i.e., gender, experience, perceived importance of inquiry and traditional teaching, workshop attendance, partner teacher, use of technology) affect student knowledge integration understanding of science topics drawing on previous research. Using a two‐level hierarchical linear model, we analyze year‐end knowledge integration performance of 4,513 students taught by 40 teachers across five states. Results indicate that students of teachers who value inquiry teaching strategies have significantly higher levels of knowledge integration understanding than those of teachers who believe in traditional teaching methods. In addition, workshop attendance and having a partner teacher teaching the same unit in the same school also have a positive impact on students' knowledge integration levels. The results underscore the importance of professional development and collegial support in enhancing student success in inquiry science. © 2009 Wiley Periodicals, Inc. J Res Sci Teach 47:807–819, 2010     

Marking time: using music to create inclusive religious education and inclusive schools

Religious education (RE) is a vital subject in the inclusion of pupils and staff alike, as it brings together ways of life and communities, the personal and the social. Based on the philosophy of community of John Macmurray, and the philosophy of dialogue of Martin Buber, Julian Stern investigates ways of ‘marking time’, understanding and celebrating times and events in schools. Music, embedded in religious and other ways of life, adds a communicative dimension that strengthens inclusive RE and intercultural communication. RE with music can be used as a form of community‐making of the most comprehensive (i.e. inclusive) kind, engaging the imagination to such an extent that pupils, teachers and all members of school communities can, in Buber's words, ‘imagine the real’.     

From scientific practice to high school science classrooms: Transfer of scientific technologies and realizations of authentic inquiry

The Biology Workbench (BW) is a web‐based tool enabling scientists to search a wide array of protein and nucleic acid sequence databases with integrated access to a variety of analysis and modeling tools. The present study examined the development of this scientific tool and its consequent adoption into the context of high school science teaching in the form of the Biology Student Workbench (BSW). Participants included scientists, programmers, science educators, and science teachers who played key roles along the pathway of the design and development of BW, and/or the adaptation and implementation of BSW in high school science classrooms. Participants also included four teachers who, with their students, continue to use BSW. Data sources included interviews, classroom observations, and relevant artifacts. Contrary to what often is advocated as a major benefit accruing from the integration of authentic scientific tools into precollege science teaching, classroom enactments of BSW lacked elements of inquiry and were teacher‐centered with prescribed convergent activities. Students mostly were preoccupied with following instructions and a focus on science content. The desired and actual realizations of BSW fell on two extremes that reflected the disparity between scientists' and educators' views on science, inquiry science teaching, and the related roles of technological tools. Research on large‐scale adoptions of technological tools into precollege science classrooms needs to expand beyond its current focus on teacher knowledge, skills, beliefs, and practices to examine the role of the scientists, researchers, and teacher educators who often are involved in such adoptions. © 2010 Wiley Periodicals, Inc. J Res Sci Teach 48: 37–70, 2011     

The culturally gifted classroom: a sociocultural approach to the inclusive education of English language learners

The need for including English language learners in the regular classroom at all phases of their linguistic and cultural development is presented within a Vygotkian sociocultural theory of human development. Based on the social primacy of development within this theoretical tenet, all aspects of development are viewed to proceed from social interactions. Effective social interactions that lead to development are distinguished by a heterogeneous collective experience of all participants in the interaction. In accordance with the sociocultural perspective, the educational goal of this heterogeneous group is to acquire and use cultural tools deemed appropriate to their time and place. As others’ cultures and languages become rich resources for becoming competent in one’s own culture, the cultural and linguistic diversity gained by including all students in the classroom becomes a powerful source of development for all.     

Hard to teach: inclusive pedagogy in social science research methods education

Amidst major new initiatives in research that are beginning to address the pedagogic dimension of building capacity in social science research methods, this paper makes the first move to apply the lens of inclusive pedagogy to research methods pedagogy. The paper explores the ways in which learning social science research methods is hard and may be anxiety-provoking, which has sometimes led to a deficit discourse in which learners are positioned as ill-prepared and fearful. Learners can then be blamed for being hard to teach when an inclusive pedagogical lens would support a more asset-based discourse. Nonetheless, the authors argue that without traditional deficit-based solutions of the remedial class, special needs label or special teacher within the methods learning environment, methods teachers have developed their own responses. These pedagogic responses, elicited from the authors’ research using methods of expert interviews, focus groups and video-stimulated dialogue, address challenges associated with the learner, the learning material and the teacher’s context. The paper differentiates between practical solution-focused strategies and more holistic approaches. The authors illustrate how methods teachers reach out to diverse learners and they conclude that data and standpoints are used in inclusive teaching to make connections and to support learning.     

Using cultural historical activity theory to uncover praxis for inclusive education

This paper explores ways in which cultural historical activity theory (CHAT) provides a useful framework for examination of reflection and action during inclusive education fieldwork. Deeper understanding of combined reflection and action – praxis – is needed for researchers and teacher educators to support teacher candidates’ implementation of inclusive practices. We present a framework that includes core components of CHAT and potential insights these elements can bring to describing, analysing, or facilitating praxis during fieldwork. In particular, we discuss affordances of identifying activity systems, examining tool appropriation, and discovering tensions in teacher fieldwork. Examples based on evidence from two studies applying a CHAT lens to inclusive education fieldwork are embedded throughout the paper to illustrate the utility of this approach.