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Showing 1 - 14 of 14 matches in All Departments
This book discusses how we can inspire today's youth to engage in challenging and productive discussions around the past, present and future role of animals in science education. Animals play a large role in the sciences and science education and yet they remain one of the least visible topics in the educational literature. This book is intended to cultivate research topics, conversations, and dispositions for the ethical use of animals in science and education. This book explores the vital role of animals with/in science education, specimens, protected species, and other associated issues with regards to the role of animals in science. Topics explored include ethical, curriculum and pedagogical dimensions, involving invertebrates, engineering solutions that contribute to ecosystems, the experiences of animals under our care, aesthetic and contemplative practices alongside science, school-based ethical dialogue, nature study for promoting inquiry and sustainability, the challenge of whether animals need to be used for science whatsoever, reconceptualizing museum specimens, cultivating socioscientific issues and epistemic practice, cultural integrity and citizen science, the care and nurturance of gender-balanced curriculum choices for science education, and theoretical conversations around cultivating critical thinking skills and ethical dispositions. The diverse authors in this book take on the logic of domination and symbolic violence embodied within the scientific enterprise that has systematically subjugated animals and nature, and emboldened the anthropocentric and exploitative expressions for the future role of animals. At a time when animals are getting excluded from classrooms (too dangerous! too many allergies! too dirty!), this book is an important counterpoint. Interacting with animals helps students develop empathy, learn to care for living things, engage with content. We need more animals in the science curriculum, not less. David Sobel, Senior Faculty, Education Department, Antioch University New England
This text is designed as a practical introduction to quantum chemistry. Quantum chemistry is applied to explain and predict molecular spectroscopy and the electronic structure of atoms and molecules. In addition, the text provides a practical guide to using molecular mechanics and electronic structure computations including ab initio, semi-empirical, and density functional methods. The use of electronic structure computations is a timely subject as its applications in both theoretical and experimental chemical research is increasingly prevalent. This text is written in a format that fosters mastery of the subject both in competency in the mathematics and in obtaining a conceptual understanding of quantum mechanics. The chemistry student's interest is maintained early on in the text where quantum mechanics is developed by applying it to molecular spectroscopy and through conceptual questions labeled as Chemical Connection. Questions throughout the text labeled as Chemical Connection and Points of Further Understanding focus on conceptual understanding and consequences of quantum mechanics. If an Instructor chooses, these questions can be used as a basis for classroom discussion encouraging cooperative learning techniques. This text provides a solid foundation from which students can readily build further knowledge of quantum chemistry in more advanced courses. In cases where this is a final course in quantum chemistry, this text provides the student not only with an appreciation of the importance of quantum mechanics to chemistry, but also with a practical guide to using electronic structure computations.
This edited volume explores 21st century stories of hunting, foraging, and fishing for food as unique forms of place-based learning. Through the authors' narratives, it reveals complex social and ecological relationships while readers sample the flavors of foraging in Portland, Oregon; feel some of what it's like to grow up hunting and gathering as a person of Oglala Lakota and Shoshone-Bannock descent; track the immersive process of learning to communicate with rocky mountain elk; encounter a road-killed deer as a spontaneous source of local meat, and more. Other topics in the collection connect place, food, and learning to issues of identity, activism, spirituality, food movements, conservation, traditional and elder knowledge, and the ethics related to eating the more-than-human world. This volume will bring lively discussion to courses on place-based learning, food studies, environmental education, outdoor recreation, experiential education, holistic learning, human dimensions of natural resource management, sustainability, food systems, environmental ethics, and others.
As the first book to explore the confluence of three emerging yet critical fields of study, this work sets an exacting standard. The editors' aim was to produce the most authoritative guide for ecojustice, place-based education, and indigenous knowledge in education. Aimed at a wide audience that includes, but is not restricted to, science educators and policymakers, Cultural Studies and Environmentalism starts from the premise that schooling is a small part of the larger educational domain in which we live and learn. Informed by this overarching notion, the book opens up ways in which home-grown talents, narratives, and knowledge can be developed, and eco-region awareness and global relationships can be facilitated. Incorporating a diversity of perspectives that include photography, poetry and visual art, the work provides a nuanced lens for evaluating educational problems and community conditions while protecting and conserving the most threatened and vulnerable narratives. Editors and contributors share the view that the impending loss of these narratives should be discussed much more widely than is currently the case, and that both teachers and children can take on some of the responsibility for their preservation. The relevance of ecojustice to this process is clear. Ecojustice philosophy is a way of learning about how we frame, or perceive, the world around us-and why that matters. Although it is not synonymous with social or environmental justice, the priorities of ecojustice span the globe in the same way. It incorporates a deep recognition of the appropriateness and significance of learning from place-based experiences and indigenous knowledge systems rather than depending on some urgent "ecological crises" to advocate for school and societal change. With a multiplicity of diverse voices coming together to explore its key themes, this book is an important starting point for educators in many arenas. It brings into better focus a vital role for the Earth's ecosystems in the context of ecosociocultural theory and participatory democracy alike. "Encompassing theoretical, empirical, and experiential standpoints concerning place-based knowledge systems, this unique book argues for a transformation of (science) education's intellectual tradition of thinking that emphasizes individual cognition. In its place, the book offers a wisdom tradition of thinking, living, and being that emphasizes community survival in harmony within itself and with Mother Earth." Glen Aikenhead
This volume draws on the ecojustice, citizen science and youth activism literature base in science education and applies the ideas to situated tensions as they are either analyzed theoretically or praxiologically within science education pedagogy. It uses ecojustice to evaluate the holistic connections between cultural and natural systems, environmentalism, sustainability and Earth-friendly marketing trends, and introduces citizen science and youth activism as two of the pedagogical ways ecojustice philosophy can be enacted. It also comprises evidence-based practice with international service, community embedded curriculum, teacher preparation, citizen monitoring and community activism, student-scientist partnerships, socioscientific issues, and new avenues for educational research.
Today's youth will face global environmental changes, as well as complex personal and social challenges. To address these issues this collection of essays provides vital insights on how science education can be designed to better engage students and help them solve important problems in the world around them. "Assessing Schools for Generation R (Responsibility)" includes theories, research, and practices for envisioning how science and environmental education can promote personal, social, and civic responsibility. It brings together inspiring stories, creative practices, and theoretical work to make the case that science education can be reformed so that students learn to meaningfully apply the concepts they learn in science classes across America and grow into civically engaged citizens. The book calls for a curriculum that equips students with the knowledge, skills, attitudes and values to confront the complex and often ill-defined socioscientific issues of daily life. The authors are all experienced educators and top experts in the fields of science and environmental education, ecology, experiential education, educational philosophy, policy and history. They examine what has to happen in the domains of teacher preparation and public education to effect a transition of the youth of America. This exciting, informative, sophisticated and sometimes provocative book will stimulate much debate about the future direction of science education in America, and the rest of the world. It is ideal reading for all school superintendents, deans, faculty, and policymakers looking for a way to implement a curriculum that helps builds students into responsible and engaged citizens."
This book examines the push and pull of factors contributing to and constraining conversion of STEM (science, technology, engineering and math) education programs into STEAM (science, technology, engineering, math and arts) education programs. The chapters in this book offer thought-provoking examples, theory, and suggestions about the advantages, methods and challenges involved in making STEM to STEAM conversions, at levels ranging from K12 through graduate university programs. A large driving force for STEM-to-STEAM conversions is the emerging awareness that the scientific workforce finds itself less than ideally prepared when engaging with so-called 'wicked problems' - the complex suite of emerging, multifaceted issues such as global climate change, social injustice, and pandemic diseases. Dealing with these issues requires cross-disciplinary expertise and the ability to insert technical and scientific understanding effectively into areas of public planning and policy. The different models and possibilities for STEAM, as the next phase of the STEM revolution, laid out in this book will promote research and further our understanding of STEAM as a forward-thinking approach to education. Gillian Roehrig, STEM Education, University of Minnesota, USA The ideal teacher sees opportunities for integrating ideas from multiple disciplines into every lesson. This book offers many worthwhile suggestions on how to do that deliberately and systematically George DeBoer, Project 2061 of the American Association for the Advancement of Science, USA For the last several years, calls for expanding STEM education have grown, but so too have concerns about technocratic approaches to STEM. This volume challenges the community to consider broader views on STEM by focusing on the place of arts education within this movement. The chapters offer much needed, new perspectives on the (re)integration of the arts and sciences Troy Sadler, School of Education, University of North Carolina, USA
This edited volume explores 21st century stories of hunting, foraging, and fishing for food as unique forms of place-based learning. Through the authors' narratives, it reveals complex social and ecological relationships while readers sample the flavors of foraging in Portland, Oregon; feel some of what it's like to grow up hunting and gathering as a person of Oglala Lakota and Shoshone-Bannock descent; track the immersive process of learning to communicate with rocky mountain elk; encounter a road-killed deer as a spontaneous source of local meat, and more. Other topics in the collection connect place, food, and learning to issues of identity, activism, spirituality, food movements, conservation, traditional and elder knowledge, and the ethics related to eating the more-than-human world. This volume will bring lively discussion to courses on place-based learning, food studies, environmental education, outdoor recreation, experiential education, holistic learning, human dimensions of natural resource management, sustainability, food systems, environmental ethics, and others.
This book discusses how we can inspire today's youth to engage in challenging and productive discussions around the past, present and future role of animals in science education. Animals play a large role in the sciences and science education and yet they remain one of the least visible topics in the educational literature. This book is intended to cultivate research topics, conversations, and dispositions for the ethical use of animals in science and education. This book explores the vital role of animals with/in science education, specimens, protected species, and other associated issues with regards to the role of animals in science. Topics explored include ethical, curriculum and pedagogical dimensions, involving invertebrates, engineering solutions that contribute to ecosystems, the experiences of animals under our care, aesthetic and contemplative practices alongside science, school-based ethical dialogue, nature study for promoting inquiry and sustainability, the challenge of whether animals need to be used for science whatsoever, reconceptualizing museum specimens, cultivating socioscientific issues and epistemic practice, cultural integrity and citizen science, the care and nurturance of gender-balanced curriculum choices for science education, and theoretical conversations around cultivating critical thinking skills and ethical dispositions. The diverse authors in this book take on the logic of domination and symbolic violence embodied within the scientific enterprise that has systematically subjugated animals and nature, and emboldened the anthropocentric and exploitative expressions for the future role of animals. At a time when animals are getting excluded from classrooms (too dangerous! too many allergies! too dirty!), this book is an important counterpoint. Interacting with animals helps students develop empathy, learn to care for living things, engage with content. We need more animals in the science curriculum, not less. David Sobel, Senior Faculty, Education Department, Antioch University New England
This volume draws on the ecojustice, citizen science and youth activism literature base in science education and applies the ideas to situated tensions as they are either analyzed theoretically or praxiologically within science education pedagogy. It uses ecojustice to evaluate the holistic connections between cultural and natural systems, environmentalism, sustainability and Earth-friendly marketing trends, and introduces citizen science and youth activism as two of the pedagogical ways ecojustice philosophy can be enacted. It also comprises evidence-based practice with international service, community embedded curriculum, teacher preparation, citizen monitoring and community activism, student-scientist partnerships, socioscientific issues, and new avenues for educational research.
Today's youth will face global environmental changes, as well as complex personal and social challenges. To address these issues this collection of essays provides vital insights on how science education can be designed to better engage students and help them solve important problems in the world around them. Assessing Schools for Generation R (Responsibility) includes theories, research, and practices for envisioning how science and environmental education can promote personal, social, and civic responsibility. It brings together inspiring stories, creative practices, and theoretical work to make the case that science education can be reformed so that students learn to meaningfully apply the concepts they learn in science classes across America and grow into civically engaged citizens. The book calls for a curriculum that equips students with the knowledge, skills, attitudes and values to confront the complex and often ill-defined socioscientific issues of daily life. The authors are all experienced educators and top experts in the fields of science and environmental education, ecology, experiential education, educational philosophy, policy and history. They examine what has to happen in the domains of teacher preparation and public education to effect a transition of the youth of America. This exciting, informative, sophisticated and sometimes provocative book will stimulate much debate about the future direction of science education in America, and the rest of the world. It is ideal reading for all school superintendents, deans, faculty, and policymakers looking for a way to implement a curriculum that helps builds students into responsible and engaged citizens.
This text is designed as a practical introduction to quantum chemistry. Quantum chemistry is applied to explain and predict molecular spectroscopy and the electronic structure of atoms and molecules. In addition, the text provides a practical guide to using molecular mechanics and electronic structure computations including ab initio, semi-empirical, and density functional methods. The use of electronic structure computations is a timely subject as its applications in both theoretical and experimental chemical research is increasingly prevalent. This text is written in a format that fosters mastery of the subject both in competency in the mathematics and in obtaining a conceptual understanding of quantum mechanics. The chemistry student's interest is maintained early on in the text where quantum mechanics is developed by applying it to molecular spectroscopy and through conceptual questions labeled as Chemical Connection. Questions throughout the text labeled as Chemical Connection and Points of Further Understanding focus on conceptual understanding and consequences of quantum mechanics.If an Instructor chooses, these questions can be used as a basis for classroom discussion encouraging cooperative learning techniques. This text provides a solid foundation from which students can readily build further knowledge of quantum chemistry in more advanced courses. In cases where this is a final course in quantum chemistry, this text provides the student not only with an appreciation of the importance of quantum mechanics to chemistry, but also with a practical guide to using electronic structure computations.
As the first book to explore the confluence of three emerging yet critical fields of study, this work sets an exacting standard. The editors' aim was to produce the most authoritative guide for ecojustice, place-based education, and indigenous knowledge in education. Aimed at a wide audience that includes, but is not restricted to, science educators and policymakers, Cultural Studies and Environmentalism starts from the premise that schooling is a small part of the larger educational domain in which we live and learn. Informed by this overarching notion, the book opens up ways in which home-grown talents, narratives, and knowledge can be developed, and eco-region awareness and global relationships can be facilitated. Incorporating a diversity of perspectives that include photography, poetry and visual art, the work provides a nuanced lens for evaluating educational problems and community conditions while protecting and conserving the most threatened and vulnerable narratives. Editors and contributors share the view that the impending loss of these narratives should be discussed much more widely than is currently the case, and that both teachers and children can take on some of the responsibility for their preservation. The relevance of ecojustice to this process is clear. Ecojustice philosophy is a way of learning about how we frame, or perceive, the world around us-and why that matters. Although it is not synonymous with social or environmental justice, the priorities of ecojustice span the globe in the same way. It incorporates a deep recognition of the appropriateness and significance of learning from place-based experiences and indigenous knowledge systems rather than depending on some urgent "ecological crises" to advocate for school and societal change. With a multiplicity of diverse voices coming together to explore its key themes, this book is an important starting point for educators in many arenas. It brings into better focus a vital role for the Earth's ecosystems in the context of ecosociocultural theory and participatory democracy alike. "Encompassing theoretical, empirical, and experiential standpoints concerning place-based knowledge systems, this unique book argues for a transformation of (science) education's intellectual tradition of thinking that emphasizes individual cognition. In its place, the book offers a wisdom tradition of thinking, living, and being that emphasizes community survival in harmony within itself and with Mother Earth." Glen Aikenhead
This book examines the push and pull of factors contributing to and constraining conversion of STEM (science, technology, engineering and math) education programs into STEAM (science, technology, engineering, math and arts) education programs. The chapters in this book offer thought-provoking examples, theory, and suggestions about the advantages, methods and challenges involved in making STEM to STEAM conversions, at levels ranging from K12 through graduate university programs. A large driving force for STEM-to-STEAM conversions is the emerging awareness that the scientific workforce finds itself less than ideally prepared when engaging with so-called 'wicked problems' - the complex suite of emerging, multifaceted issues such as global climate change, social injustice, and pandemic diseases. Dealing with these issues requires cross-disciplinary expertise and the ability to insert technical and scientific understanding effectively into areas of public planning and policy. The different models and possibilities for STEAM, as the next phase of the STEM revolution, laid out in this book will promote research and further our understanding of STEAM as a forward-thinking approach to education. Gillian Roehrig, STEM Education, University of Minnesota, USA The ideal teacher sees opportunities for integrating ideas from multiple disciplines into every lesson. This book offers many worthwhile suggestions on how to do that deliberately and systematically George DeBoer, Project 2061 of the American Association for the Advancement of Science, USA For the last several years, calls for expanding STEM education have grown, but so too have concerns about technocratic approaches to STEM. This volume challenges the community to consider broader views on STEM by focusing on the place of arts education within this movement. The chapters offer much needed, new perspectives on the (re)integration of the arts and sciences Troy Sadler, School of Education, University of North Carolina, USA
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