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The Language of Science Education: An Expanded Glossary of Key Terms and Concepts in Science Teaching and Learning is written expressly for science education professionals and students of science education to provide the foundation for a shared vocabulary of the field of science teaching and learning. Science education is a part of education studies but has developed a unique vocabulary that is occasionally at odds with the ways some terms are commonly used both in the field of education and in general conversation. Therefore, understanding the specific way that terms are used within science education is vital for those who wish to understand the existing literature or make contributions to it. The Language of Science Education provides definitions for 100 unique terms, but when considering the related terms that are also defined as they relate to the targeted words, almost 150 words are represented in the book. For instance, “laboratory instruction” is accompanied by definitions for openness, wet lab, dry lab, virtual lab and cookbook lab. Each key term is defined both with a short entry designed to provide immediate access following by a more extensive discussion, with extensive references and examples where appropriate. Experienced readers will recognize the majority of terms included, but the developing discipline of science education demands the consideration of new words. For example, the term blended science is offered as a better descriptor for interdisciplinary science and make a distinction between project-based and problem-based instruction. Even a definition for science education is included. The Language of Science Education is designed as a reference book but many readers may find it useful and enlightening to read it as if it were a series of very short stories.
Engage your students with inquiry-based lessons that help them think like scientists! "[This] book...has made such a difference in my teaching of science this school year. I have had some of the most amazing science lessons and activities with my students and I attribute this to what I learned from...[this] book... I have watched my 5th grade students go from being casual observers in science to making some amazing observations that I even missed. We enjoy our class investigations and the students ask for more!" --Alyce F. Surmann, Sembach Middle School "Teachers will relate well to the author's personal stories and specific examples given in the text, especially the ones about events in his own classroom.... like having the grasshoppers escape into the classroom!" --Andrea S. Martine, Director of Curriculum and Instruction, Warrior Run School District With Teaching the Nature of Science through Process Skills, author and science educator Randy Bell uses process skills you'll recognize, such as inference and observation, to promote an understanding of the characteristics of science knowledge. His personal stories, taken from years of teaching, set the stage for a friendly narrative that illuminates these characteristics of scientific knowledge and provides step-by-step guidance for implementing inquiry activities that help children understand such important, yet abstract, concepts. With Randy as your guide, you can better adhere to current science education standards that urge teachers to go beyond teaching science content to teach children about the practice and the nature of science in a way that engages all learners in grades three through eight. Investigate further... More than 50 ideas and activities for teaching the nature of science to help you meet content standards. A comprehensive framework to guide you in integrating the approach across the science curriculum, throughout the school year, and across the grade levels. A goldmine of reproducible resources, such as work sheets, notebook assignments, and more. Assessment guidance that helps you measure your students' nature of science understanding.
Science process skills are the skills that scientists use to study and investigate the world. They are the vehicle for generating content and a means by which concepts are formed. This book is presented in three parts. Part 1 attends to the kinds of science skills appropriate for preschool and the lower elementary grades including observation, classification, communication, measurement, prediction and influence. Part 2 includes the more complex, integrated skills that are needed to plan and conduct controlled scientific investigations. Part 3 provides a guide to teaching scientific facts and concepts through process skills. Each chapter contains objectives, lists of materials, suggested directions and blanks for responses, self-check questions, and extension activities. The activities are designed to allow students to work at their own pace. At the end of each chapter, a mastery test is provided. An appendix lists simple, inexpensive materials that are needed to do the exercises in this book. (CW)
This book emphasizes the significance of teaching science in early childhood classrooms, reviews the research on what young children are likely to know about science and provides key points on effectively teaching science to young children. Science education, an integral part of national and state standards for early childhood classrooms, encompasses not only content-based instruction but also process skills, creativity, experimentation and problem-solving. By introducing science in developmentally appropriate ways, we can support young children’s sensory explorations of their world and provide them with foundational knowledge and skills for lifelong science learning, as well as an appreciation of nature. This book emphasizes the significance of teaching science in early childhood classrooms, reviews the research on what young children are likely to know about science, and provides key points on effectively teaching young children science. Common research methods used in the reviewed studies are identified, methodological concerns are discussed and methodological and theoretical advances are suggested.
Science teacher educators, curriculum specialists, professional development facilitators, and KOCo8 teachers are bound to increase their understanding and confidence when teaching inquiry after a careful reading of this definitive volume. Advancing a new perspective, James Jadrich and Crystal Bruxvoort assert that scientific inquiry is best taught using models in science rather than focusing on scientistsOCO activities."
Seasoned classroom veterans, pre-tenured faculty, and neophyte teaching assistants alike will find this book invaluable. HHMI Professor Jo Handelsman and her colleagues at the Wisconsin Program for Scientific Teaching (WPST) have distilled key findings from education, learning, and cognitive psychology and translated them into six chapters of digestible research points and practical classroom examples. The recommendations have been tried and tested in the National Academies Summer Institute on Undergraduate Education in Biology and through the WPST. Scientific Teaching is not a prescription for better teaching. Rather, it encourages the reader to approach teaching in a way that captures the spirit and rigor of scientific research and to contribute to transforming how students learn science.
This book approaches STEAM (Science, Technology, Engineering, the Arts and Mathematics) in early childhood education from multiple angles. It focuses on the teaching and learning of children from two years of age to the early years of school. Proponents of STEAM describe how it can create opportunities for children to learn creatively, and various chapter authors make strong connections between discipline areas within the context of an informal curriculum. Others advocate for an integrated STEM, rather than STEAM, approach. With a light touch on theory and a focus on how to embed STE(A)M in an integrated early childhood curriculum, the editors and contributors examine the STEAM versus STEM question from multiple angles. The chapters provide helpful frameworks for parents, teachers and higher education institutions, and make practical suggestions of ways to support young children’s inquiry learning. Drawing on pedagogy and research from around the world, this book will be of interest to scholars of STEAM education, early childhood educators, students of early childhood education and parents of young children.
Teaching Science to Every Child proposes a fresh perspective for teaching school science and draws upon an extensive body of classroom research to meaningfully address the achievement gap in science education. Settlage and Southerland begin from the point of view that science can be thought of as a culture, rather than as a fixed body of knowledge. Throughout this book, the idea of culture is used to illustrate how teachers can guide all students to be successful in science while still being respectful of students' ethnic heritages and cultural traditions. By combining a cultural view of science with instructional approaches shown to be effective in a variety of settings, the authors provide elementary and middle school teachers with a conceptual framework as well as pedagogical approaches which support the science learning of a diverse array of students.
`Professor Harlen has, once again, provided the leading text on primary science. This eminently readable book sets out a clear account of our understanding of learning, teaching and assessment and, through the skilful use of examples, explores the implications of this for science teachers of pupils aged five to 12. By emphasizing the importance of research evidence and the way in which it should underpin practice, this new edition challenges everyone involved in science education to reflect again on whether we are providing the most appropriate learning opportunities for our pupils. It is certainly a book which will be highly recommended, referred to on many occasions and used extensively′ - Dr Derek Bell, Chief Executive, The Association for Science Education This thoroughly revised and completely up-to-date new edition provides an excellent theoretical framework for teaching science that is firmly grounded in classroom practice and covers all stages of education for students aged five to 12 years. The author details a constructivist view of learning, which recognizes that children already have ideas about the world in which they live, and gives advice on how teachers can help children to develop their understanding and change their perception to a more scientific view. A particular feature is the focus on formative assessment as a framework for discussion on how to help students develop their understanding, enquiry skills and positive attitudes to scientific investigation. The wide range of topics covered include: The nature of students′ learning in science The goals of science education Gathering and interpreting information about students′ ′s ideas Helping development of scientific ideas Gathering and interpreting evidence of students′ enquiry skills and attitudes Strategies for helping development of students′ qnquiry skills and attitudes The learner′s role in learning Summarising and reporting learning Motivating learning Teachers and children′s questions Resources for learning science Managing science in the school Each chapter features useful summaries, points for reflection and further reading, making this acclaimed book indispensable reading for all primary and practitioners and students who want a book that will authoritatively inform, inspire and instruct their science teaching.