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One aim of Gilmer’s captivating text on university pedagogy is to show that biochemistry (or any science) does not consist solely of facts to be learned, but is a way of thinking about the world. Her purpose, both in this book and in her classroom, is to make her students into critical thinkers rather than passive learners. The chapters cast a critical eye over research into enhanced education techniques such as collaborative learning. Gilmer describes the action research she conducted in her own biochemistry undergraduate classroom into ways of improving the learning environment. She offers various perspectives on the make-up of her classroom, including an analysis of ethnographic data. The tools Gilmer employs as she hones her teaching skills include collaborative learning and technology. She views the classroom through various theoretical perspectives: social constructivism, cultural-historical activity theory, and a theory that involves the dialectic between the structure of the learning environment and the agency of the learners (a group among whom she includes herself). She provides a wealth of autobiographical detail as well as the results of her action research, which followed up on its original subjects after an interval of 11 years, to see what impact her course had on their professional growth. Above all, this volume is proof of what can be achieved in education when teachers are as interested in the process of learning as they are in their subject itself.
Science --Study and teaching (Higher). --- Science --- Education --- Physical Sciences & Mathematics --- Chemistry --- Social Sciences --- Sciences - General --- Biochemistry --- Education - General --- Theory & Practice of Education --- Study and teaching (Higher) --- Team learning approach in education. --- Action research in education. --- Study and teaching. --- Learning teams --- Science education --- Scientific education --- Group work in education --- Research
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One aim of Gilmer’s captivating text on university pedagogy is to show that biochemistry (or any science) does not consist solely of facts to be learned, but is a way of thinking about the world. Her purpose, both in this book and in her classroom, is to make her students into critical thinkers rather than passive learners. The chapters cast a critical eye over research into enhanced education techniques such as collaborative learning. Gilmer describes the action research she conducted in her own biochemistry undergraduate classroom into ways of improving the learning environment. She offers various perspectives on the make-up of her classroom, including an analysis of ethnographic data. The tools Gilmer employs as she hones her teaching skills include collaborative learning and technology. She views the classroom through various theoretical perspectives: social constructivism, cultural-historical activity theory, and a theory that involves the dialectic between the structure of the learning environment and the agency of the learners (a group among whom she includes herself). She provides a wealth of autobiographical detail as well as the results of her action research, which followed up on its original subjects after an interval of 11 years, to see what impact her course had on their professional growth. Above all, this volume is proof of what can be achieved in education when teachers are as interested in the process of learning as they are in their subject itself.
Teaching --- Didactics of sciences --- HO (hoger onderwijs) --- onderwijs --- opvoeding --- wetenschappen
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One aim of Gilmer's captivating text on university pedagogy is to show that biochemistry (or any science) does not consist solely of facts to be learned, but is a way of thinking about the world. Her purpose, both in this book and in her classroom, is to make her students into critical thinkers rather than passive learners. The chapters cast a critical eye over research into enhanced education techniques such as collaborative learning. Gilmer describes the action research she conducted in her own biochemistry undergraduate classroom into ways of improving the learning environment. She offers various perspectives on the make-up of her classroom, including an analysis of ethnographic data. The tools Gilmer employs as she hones her teaching skills include collaborative learning and technology. She views the classroom through various theoretical perspectives: social constructivism, cultural-historical activity theory, and a theory that involves the dialectic between the structure of the learning environment and the agency of the learners (a group among whom she includes herself). She provides a wealth of autobiographical detail as well as the results of her action research, which followed up on its original subjects after an interval of 11 years, to see what impact her course had on their professional growth. Above all, this volume is proof of what can be achieved in education when teachers are as interested in the process of learning as they are in their subject itself.
Teaching --- Didactics of sciences --- HO (hoger onderwijs) --- onderwijs --- opvoeding --- wetenschappen
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This unique book provides important guidelines and examples of ways STEM (e.g., science, technology, engineering, and mathematics) faculty and administration can collaborate towards goals of recruiting, mentoring, and promoting leadership to academic women faculty. Based on the experiences of faculty across five Florida universities, including one national laboratory, each chapter highlights one aspect of a multi-institutional collaboration on an NSF ADVANCE-PAID grant dedicated to achieving these three goals. Highlighting the importance of coordination, integration, and flexibility, each chapter details strategies and challenges of establishing a multi-site collaboration, assessing climate in STEM departments, addressing differential institutional readiness and infrastructure, and implementing change. The authors suggest ways to build on intrainstitutional strengths through interinstitutional activities, including shared workshops, research, and materials. Separate chapters focus on recruiting women into STEM departments, mentoring women faculty, and providing leadership opportunities to women. A theoretical chapter includes Cultural historical activity theory as a lens for examining the alliances’ activities and evaluation data. Other chapters present research on women STEM faculty, contributing insights about STEM women’s sense of isolation. Chapters include a reflective metalogue written by a social scientist. The book closes with lessons learned from this collaboration.
Women college teachers. --- Women in engineering. --- Women in higher education. --- Women in science. --- Women in technology. --- Education --- Social Sciences --- Education - General --- Theory & Practice of Education --- Women as college teachers --- Education. --- Education, general. --- Engineering --- Technology --- Minorities in science --- Science --- College teachers --- Women in higher education --- Women teachers --- Education, Higher --- Children --- Education, Primitive --- Education of children --- Human resource development --- Instruction --- Pedagogy --- Schooling --- Students --- Youth --- Civilization --- Learning and scholarship --- Mental discipline --- Schools --- Teaching --- Training
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Dr. Hedy Moscovici’s life on three continents and her battle with ovarian cancer shaped the unique co-learning and participative leadership perspective on science and mathematics education shared in this book. This text has multiple audiences – prospective and practicing teachers wanting to motivate their students to learn, science and mathematics educators mentoring teachers to become transformative intellectuals and critical pedagogues, parents interested in their children’s advancement, and interested policymakers and public wishing to deepen their understanding about learning in general and educational issues in science and mathematics. Two mottos, “I can’t learn from you if you can’t learn from me” and “to teach is to learn twice,” summarize the essence of her message. The spotlight is on the critical interdependence of factors, specifically human ability to construct understanding; necessity of disequilibrium to spark neural rewiring; cognition-emotion (pleasure vs. pain, even science or math phobia) connections; sociocultural context; dilemma created by the absence of a clearly trustworthy “learning meter” for a society valuing objective measurement of quality of learning; human relationships sustained by three R’s (rights, responsibilities, respect); and, heightened awareness of power relationships leading to a spirit of collaboration, recognition of each individual’s strengths and expertise; and critical pedagogy.
Mathematics -- Study and teaching. --- Science -- Study and teaching. --- Physical Sciences & Mathematics --- Education --- Social Sciences --- Education - General --- Sciences - General --- Science --- Mathematics --- Study and teaching. --- Science education --- Scientific education --- Education. --- Education, general. --- Children --- Education, Primitive --- Education of children --- Human resource development --- Instruction --- Pedagogy --- Schooling --- Students --- Youth --- Civilization --- Learning and scholarship --- Mental discipline --- Schools --- Teaching --- Training
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Dr. Hedy Moscovici’s life on three continents and her battle with ovarian cancer shaped the unique co-learning and participative leadership perspective on science and mathematics education shared in this book. This text has multiple audiences – prospective and practicing teachers wanting to motivate their students to learn, science and mathematics educators mentoring teachers to become transformative intellectuals and critical pedagogues, parents interested in their children’s advancement, and interested policymakers and public wishing to deepen their understanding about learning in general and educational issues in science and mathematics. Two mottos, “I can’t learn from you if you can’t learn from me” and “to teach is to learn twice,” summarize the essence of her message. The spotlight is on the critical interdependence of factors, specifically human ability to construct understanding; necessity of disequilibrium to spark neural rewiring; cognition-emotion (pleasure vs. pain, even science or math phobia) connections; sociocultural context; dilemma created by the absence of a clearly trustworthy “learning meter” for a society valuing objective measurement of quality of learning; human relationships sustained by three R’s (rights, responsibilities, respect); and, heightened awareness of power relationships leading to a spirit of collaboration, recognition of each individual’s strengths and expertise; and critical pedagogy.
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This unique book provides important guidelines and examples of ways STEM (e.g., science, technology, engineering, and mathematics) faculty and administration can collaborate towards goals of recruiting, mentoring, and promoting leadership to academic women faculty. Based on the experiences of faculty across five Florida universities, including one national laboratory, each chapter highlights one aspect of a multi-institutional collaboration on an NSF ADVANCE-PAID grant dedicated to achieving these three goals. Highlighting the importance of coordination, integration, and flexibility, each chapter details strategies and challenges of establishing a multi-site collaboration, assessing climate in STEM departments, addressing differential institutional readiness and infrastructure, and implementing change. The authors suggest ways to build on intrainstitutional strengths through interinstitutional activities, including shared workshops, research, and materials. Separate chapters focus on recruiting women into STEM departments, mentoring women faculty, and providing leadership opportunities to women. A theoretical chapter includes Cultural historical activity theory as a lens for examining the alliances’ activities and evaluation data. Other chapters present research on women STEM faculty, contributing insights about STEM women’s sense of isolation. Chapters include a reflective metalogue written by a social scientist. The book closes with lessons learned from this collaboration.
Teaching --- Teaching --- STEM (Science Technology Engineering Mathematics) --- onderwijs --- onderwijs --- vrouwen --- klimaatverandering
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This book is a companion to the IYC-2011 celebration. The eleven chapters are organized into three sections: Section 1: Marie Curie's Impact on Science and Society, Section 2: Women Chemists in the Past Two Centuries, and Section 3: Policy Implications. The authors invited to contribute to this book were asked to orient their chapter around a particular aspect of Marie Curie's life such as the ethical aspects of her research, women's role in research or her influence on the image of chemists.Our hope is that this book will positively influence young women's minds and decisions they make in learning of chemistry/science like Marie Curie's biography. But we do hope this book opens an avenue for young women to explore the possibility of being a scientist, or at least to appreciate chemistry as a human enterprise that has its merit in contributing to sustainability in our world. Also we hope that both men and women will realize that women are fully competent and capable of conducting creative and fascinating scientific research.
Curie, Marie, 1867-1934 --- Chemists --- Women --- Biography & Autobiography --- Social Science --- Curie, marie, 1867-1934 --- Biography & autobiography --- Social science
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Science teachers --- Mathematics teachers --- Student teachers --- Science --- Mathematics --- Training of --- Training of --- Study and teaching (Secondary) --- Study and teaching (Secondary)
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