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Engineering --- Study and teaching. --- Study and teaching --- Activity programs. --- Construction --- Industrial arts --- Technology --- Educació --- Educació STEM --- Pensament creatiu --- Pensament crític --- Esperit crìtic --- Crítica --- Pensament --- Pensament crític en els infants --- Pensament únic --- Raonament (Psicologia) --- Creativitat (Educació) --- Pensament creatiu (Educació) --- Creativitat --- Pluja d'idees --- Educació en Ciència, Tecnologia, Enginyeria i Matemàtiques --- Educació STEAM --- SMET (Educació) --- STEM (Educació) --- Science, Technology, Engineering and Mathematics Education --- Ensenyament científic --- Educació tecnològica --- Escolarització --- Civilització --- Anàlisi de tasques en educació --- Art en l'educació --- Autoaprenentatge --- Autogestió pedagògica --- Autonomia de l'alumne --- Avaluació educativa --- Ciències de l'educació --- Competències bàsiques en educació --- Comunicació en l'educació --- Diferències entre sexes en l'educació --- Discriminació en l'educació --- Dones en l'educació --- Educació afectiva --- Educació ambiental --- Educació clàssica --- Educació cívica --- Educació comparada --- Educació comunista --- Educació d'adults --- Educació i lleure --- Educació en valors --- Educació familiar --- Educació integral --- Educació islàmica --- Educació militar --- Educació del consumidor --- Educació i desenvolupament econòmic --- Educació permanent --- Educació sanitària --- Educació viària --- Educadors --- Escola a casa --- Estadística educativa --- Estudiants --- Estudis a l'estranger --- Exàmens --- Experiències educatives --- Extensió universitària --- Fotografia en l'ensenyament --- Mètodes d'estudi --- Pedagogia --- Psicologia de l'aprenentatge --- Ràdio en l'ensenyament --- Relacions família-escola --- Sexisme en l'educació --- Sistema educatiu --- Sistemes de comunicacions mòbils en l'educació --- Socialització --- Sociologia de l'educació --- Teatre en l'ensenyament --- Teatre escolar --- Televisió en l'ensenyament --- Treball de grup en educació --- Universitats --- Vídeo en l'ensenyament --- Associacions de mares i pares d'alumnes --- Coeducació --- Col·laboració universitat-empresa --- Disciplina mental --- Ensenyament --- Erudició --- Escoles --- Formació --- Legislació educativa --- Educació.

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This series in Teacher Education: Self-study of Teacher Education Practices (S-STEP) has been created in order to offer clear and strong examples of self-study of teaching and teacher education practices. It explicitly values the work of teachers and teacher educators and through the research of their practice, offers insights into new ways of encouraging educational change. The series is designed to complement the Inter- tional Handbook of Self-study of Teaching and Teacher Education practices (Loughran, Hamilton, LaBoskey, & Russell, 2004) and as such, helps to further define this important field of teaching and research. Self-study of teaching and teacher education practices has become an important ˜way in'to better understanding the complex world of teaching and learning about teaching. The questions, issues and concerns, of teacher educators in and of their own practice are dramatically different to those raised by observers of the field. Hence, self-study can be seen as an invitation to teacher educators to more meani- fully link research and practice in ways that matter for their pedagogy and, as a consequence, their students'learning about pedagogy.

Teacher education. Teacher's profession --- lerarenopleiding --- Didactics of sciences --- wetenschapsleer --- Teachers --- Teacher education --- Teacher training --- Teachers, Training of --- Training of

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There has been a growing interest in the notion of a scholarship of teaching. Such scholarship is displayed through a teacher’s grasp of, and response to, the relationships between knowledge of content, teaching and learning in ways that attest to practice as being complex and interwoven. Yet attempting to capture teachers’ professional knowledge is difficult because the critical links between practice and knowledge, for many teachers, is tacit. Pedagogical Content Knowledge (PCK) offers one way of capturing, articulating and portraying an aspect of the scholarship of teaching and, in this case, the scholarship of science teaching. The research underpinning the approach developed by Loughran, Berry and Mulhall offers access to the development of the professional knowledge of science teaching in a form that offers new ways of sharing and disseminating this knowledge. Through this Resource Folio approach (comprising CoRe and PaP-eRs) a recognition of the value of the specialist knowledge and skills of science teaching is not only highlighted, but also enhanced. The CoRe and PaP-eRs methodology offers an exciting new way of capturing and portraying science teachers’ pedagogical content knowledge so that it might be better understood and valued within the profession. This book is a concrete example of the nature of scholarship in science teaching that is meaningful, useful and immediately applicable in the work of all science teachers (preservice, in-service and science teacher educators). It is an excellent resource for science teachers as well as a guiding text for teacher education. Understanding teachers' professional knowledge is critical to our efforts to promote quality classroom practice. While PCK offers such a lens, the construct is abstract. In this book, the authors have found an interesting and engaging way of making science teachers' PCK concrete, useable, and meaningful for researchers and teachers alike. It offers a new and exciting way of understanding the importance of PCK in shaping and improving science teaching and learning. Professor Julie Gess-Newsome Dean of the Graduate School of Education Williamette University This book contributes to establishing CoRes and PaP-eRs as immensely valuable tools to illuminate and describe PCK. The text provides concrete examples of CoRes and PaP-eRs completed in “real-life” teaching situations that make stimulating reading. The authors show practitioners and researchers alike how this approach can develop high quality science teaching. Dr Vanessa Kind Director Science Learning Centre North East School of Education Durham University.

Teaching --- onderwijs --- Education. --- Education, general. --- Children --- Education, Primitive --- Education of children --- Human resource development --- Instruction --- Pedagogy --- Schooling --- Students --- Youth --- Civilization --- Learning and scholarship --- Mental discipline --- Schools --- Training --- Education --- Science teachers. --- Science --- Study and teaching (Secondary) --- College science teachers --- Teachers

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Scientific literacy is generally valued and acknowledged among educators as a desirable student learning outcome. However, what scientific literacy really means in terms of classroom practice and student learning is debatable due to the inherent complexity of the term and varying expectations of what it means for learning outcomes. To date the teacher voice has been noticeably absent from this debate even though the very nature of teacher expertise lies at the heart of the processes which shape students' scientific literacy. The chapters that comprise this book tap into the expertise of a group of primary teachers from Our Lady of Good Counsel (OLGC), a primary school that chose to actively engage in teaching for scientific literacy. By analyzing the insights and thinking that emerged as they attempted to unravel some of the pedagogical complexities associated with constructing an understanding of scientific literacy in their own classrooms, these teachers demonstrate the professional knowledge and skill inherent in the expertise of teaching and learning science in a primary classroom. The chapters in this book illustrate the processes and structures that were created at OGLC to provide the conditions that allowed these teachers to explore and build on the range of ideas that informed their approach to teaching for scientific literacy. This book is a compelling example of how a whole school approach to scientific literacy can make a difference for students' learning of science and offer a concrete example of the development of professional knowledge and practice of teachers.

Didactics of sciences --- wetenschapsleer

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Teaching --- onderwijs