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This well-organized book emphasizes the various aspects of science education, viz. the use of computers in science education, software programs, the Internet, e-Learning, multimedia, concept mapping, and action research. It introduces students to the latest trends in the methods of teaching. The book also strives to foster science education through non-formal approaches, such as distance education with special reference to commonwealth of learning model, or academic games. What distinguishes this text is its emphasis on making the teachers understand that learning students’ psychology is the prerequisite for the success of any education programme. Keeping this view in mind, the text explains the well-known theories of learning of Piaget, Ausubel, Bruner and Gagne—which are closely related to science teaching. Primarily intended as a text for the undergraduate students (degree and diploma) of Education (B.Ed. and D.Ed.), this could serve as a source book for in-service teachers and science educators. In addition, curriculum developers and policy makers working in the field of science education having an abiding faith in moulding youngsters to face the challenges of 21st century should find this book useful and stimulating. KEY FEATURES : Lays emphasis on inculcating values or the development of scientific temper in students. Cites a number of examples related to teaching methods from both urban and rural areas to illustrate the concepts discussed in the text.
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.
In the early twentieth century, a curriculum known as nature study flourished in major city school systems, streetcar suburbs, small towns, and even rural one-room schools. This object-based approach to learning about the natural world marked the first systematic attempt to introduce science into elementary education, and it came at a time when institutions such as zoos, botanical gardens, natural history museums, and national parks were promoting the idea that direct knowledge of nature would benefit an increasingly urban and industrial nation. The definitive history of this once pervasive nature study movement, TeachingChildren Science emphasizes the scientific, pedagogical, and social incentives that encouraged primarily women teachers to explore nature in and beyond their classrooms. Sally Gregory Kohlstedt brings to vivid life the instructors and reformers who advanced nature study through on-campus schools, summer programs, textbooks, and public speaking. Within a generation, this highly successful hands-on approach migrated beyond public schools into summer camps, afterschool activities, and the scouting movement. Although the rich diversity of nature study classes eventually lost ground to increasingly standardized curricula, Kohlstedt locates its legacy in the living plants and animals in classrooms and environmental field trips that remain central parts of science education today.
A frequent use of scientific and technical methodologies has revolutionized various fields of education, and science education is not an exception. This book elaborates on various important aspects of science education, and comprehensively deals with its objectives and applications in the classroom programmes. The purpose of this book is to help the trainee teachers learn the nitty-gritty of science teaching, and instill in them the teaching skills and inquiry-based teaching methodologies, so that they can apply these skills practically. Divided into six units comprising 23 chapters, the book discusses step-by-step methodologies of teaching science and the ways and means of preparing the lesson plans. The chapter on Teaching aids provides useful tips on using teaching aids to make the teaching-learning process more interactive. The book is intended for the undergraduate students of Education and can also be used as a reference book for the Science teachers. KEY FEATURES : Defines the objectives of science teaching as per the National Curriculum Framework (NCF) 2005, and simultaneously provides an exposure to other latest policy perspectives. Provides up-to-date information on new evaluation system of CCE and grading for Class X introduced by the CBSE board in the year 2010. Guides the trainee-teachers in constructing practical Test Paper, Viva Questions and Multiple Choice Questions as per the latest CBSE guidelines.
Forty classroom-ready science teaching and learning activities for elementary and middle school teachers Grounded in theory and best-practices research, this practical text provides elementary and middle school teachers with 40 place-based activities that will help them to make science learning relevant to their students. This text provides teachers with both a rationale and a set of strategies and activities for teaching science in a local context to help students engage with science learning and come to understand the importance of science in their everyday lives.
Strategies for Successful Science Teaching is an exciting new text for science education classes, and a supplement for teachers of science (especially new teachers). It is aimed at K-8 teachers, but can also help 9-12 teachers. For administrators and others, the book will quickly become a standard reference on current science education strategies. Easy to navigate and presented in a discussion-style format, the book addresses: -the inquiry approach, -process skills, -lesson planning, -adapting science for special needs students, -integrating science with other subjects, -assessment of science activities, -technology and other creative teaching strategies, and -research and resources. Most chapters include a sample lesson plan with hands-on activities that illustrate the concepts discussed. In some instances, several examples are included. Appropriate websites are also provided. The chapters are short and readable. Appendices include lists of curriculum kits, activity books, organizations, periodicals, suppliers, and technology resources, in addition to the typical bibliography. These extensive appendices provide abundant resources for science education. Strategies for Successful Science Teaching is a must-have for science educators. A comprehensive resource, it never loses sight of the wonder of science and the pleasure of teaching it.
"This book attempts to introduce to its readers major chapters in the history of science. It tries to present science as a human endeavor - a great achievement, and all the more human for it. In place of the story of progress and its obstacles or a parade of truths revealed, this book stresses the contingent and historical nature of scientific knowledge. Knowledge, science included, is always developed by real people, within communities, answering immediate needs and challenges shaped by place, culture, and historical events with resources drawn from their present and past. Chronologically, this book spans from Pythagorean mathematics to Newton's Principle. The book starts in the high Middle Ages and proceeds to introduce the readers to the historian's way of inquiry. At the center of this introduction is the Gothic Cathedral - a grand achievement of human knowledge, rooted in a complex cultural context, and a powerful metaphor for science. The book alternates thematic chapters with chapters concentrating on an era. Yet it attempts to integrate discussion of all different aspects of the making of knowledge: social and cultural settings, challenges and opportunities; intellectual motivations and worries; epistemological assumptions and technical ideas; instruments and procedures. The cathedral metaphor is evoked intermittently throughout, to tie the many themes discussed to the main lesson: that the complex set of beliefs, practices, and institutions we call science is a particular, contingent human phenomenon"--
Describes inquiry-based instruction and explains how to use it in the high school science classroom in accordance with national standards, providing case studies and other tools.