This book provides a collection of applicable learning theories and their applications to science teaching. It presents a synthesis of historical theories while also providing practical implications for improvement of pedagogical practices aimed at advancing the field into the future. The theoretical viewpoints included in this volume span cognitive and social human development, address theories of learning, and describe approaches to teaching and curriculum development. The book presents and discusses humanistic, behaviourist, cognitivist, and constructivist theories. In addition, it looks at other theories, such as multiple intelligences theory, systems thinking, gender/sexuality theory and indigenous knowledge systems. Each chapter follows a reader-motivated approach anchored on a narrative genre. The book serves as a guide for those aiming to create optional learning experiences to prepare the next generation STEM workforce. Chapter “The Bildung Theory—From von Humboldt to Klafki and Beyond” is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com
The Sourcebook for Teaching Science is a unique, comprehensive resource designed to give middle and high school science teachers a wealth of information that will enhance any science curriculum. Filled with innovative tools, dynamic activities, and practical lesson plans that are grounded in theory, research, and national standards, the book offers both new and experienced science teachers powerful strategies and original ideas that will enhance the teaching of physics, chemistry, biology, and the earth and space sciences.
The Science of Reading: A Handbook brings together state-of-the-art reviews of reading research from leading names in the field, to create a highly authoritative, multidisciplinary overview of contemporary knowledge about reading and related skills. Provides comprehensive coverage of the subject, including theoretical approaches, reading processes, stage models of reading, cross-linguistic studies of reading, reading difficulties, the biology of reading, and reading instruction Divided into seven sections:Word Recognition Processes in Reading; Learning to Read and Spell; Reading Comprehension; Reading in Different Languages; Disorders of Reading and Spelling; Biological Bases of Reading; Teaching Reading Edited by well-respected senior figures in the field
This edited volume extends existing discussions among philosophers of science, cognitive psychologists, and educational researchers on the the restructuring of scientific knowledge and the domain of science education. This exchange of ideas across disciplinary fields raises fundamental issues and provides frameworks that help to focus educational research programs, curriculum development efforts, and teacher training programs.
Although educational theories are presented in a variety of textbooks and in some discipline specific handbooks and encyclopedias, no publication exists which serves as a comprehensive, consolidated collection of the most influential and most frequently quoted and consulted theories. There is a need to put such theories into a single, easily accessible volume. A unique feature of the Handbook is the way in which it conveys the theories. The organization of the chapters within each section makes the volume an easy·to-use and tu1derstandable reference tool as researchers and practitioners seek theories to guide their research and practice and as they develop theoretical frameworks. In addition to the traditional theories presented, the Handbook includes emerging theories for the 21st Century as well as presenting practical examples of the use of these theories in research from dissertations and published articles. An appendix which indicates which theories have instruments associated with them and where those instruments can be found is also included. The Handbook consists of 12 sections. Section I provides the jntroduction with a focus on what constitutes good theory as well as how theory guides research and practice. The remaining sections address Philosophical Educational Constructs, Leaming Theory, Instructional Theory, Curriculum theory, Literacy and Language Acquisition Theory, Counseling Theory, Moral Development Theory, Classroom Management Theory, Assessment Theory, Organizational Theory, and Leadership/Management Theory. Each section consists of an overview written by the section editor of the general theoretical concepts to be addressed by the chapter authors. Each chapter within the section will include (a) a description of the theory with goals, assumptions, and aspects particular to the theory, (b) the original development of and interactions of the theory, (c) validation of the theory, (d) generalizability of the theory across cultures, ethnicities, and genders, (e) the use and application of the theory, (f) critiques of the theory, (g) any instruments associated with the theory, and (h) two to five particular studies exemplifying particular theories as individuals have used them in theoretical framework of dissertations or published articles and be written by the original theorist or prominent contributors to the theory. The Handbook is intended for graduate students enrolled in research courses or completing theses and dissertations. Additionally, professors of all educational disciplines in the social scierices would be an interested audience. There is also potential use of the text as administrators, counselors, and teachers in schools use theory to guide practice. As more inquiry is being promoted among school leaders, this book has more meaning for practitioners.
Reflecting the very latest theory on diversity issues in science education, including new dialogic approaches, this volume explores the subject from a range of perspectives and draws on studies from around the world. The work discusses fundamental topics such as how we conceptualize diversity as well as examining the ways in which heterogeneous cultural constructs influence the teaching and learning of science in a range of contexts. Including numerous strategies ready for adoption by interested teachers, the book addresses the varied cultural factors that influence engagement with science education. It seeks answers to the question of why increasing numbers of students fail to connect with science education in schools and looks at the more subtle impact that students’ individually constructed identities have on the teaching and learning of science. Recognizing the diversity of its audience, the book covers differing levels and science subjects, and examines material from a range of viewpoints that include pedagogy, curricula, teacher education, learning, gender, religion, and ICT, as well as those of in-service and trainee teachers at all levels.
External representations (pictures, diagrams, graphs, concrete models) have always been valuable tools for the science teacher. This book brings together the insights of practicing scientists, science education researchers, computer specialists, and cognitive scientists, to produce a coherent overview. It links presentations about cognitive theory, its implications for science curriculum design, and for learning and teaching in classrooms and laboratories.
Effective research in educational settings requires collaboration between researchers and school-based practitioners to codesign instruction and assessment, analyze findings to inform subsequent iterations, and make thoughtful revisions. This innovative reference and course text examines the theory and practice of design-based research (DBR), an important methodology for conducting studies in authentic educational contexts. Leading experts provide specific examples of high-quality DBR addressing different research foci, grade levels, and subject areas (literacy/English language arts, math, and science). Applications are presented for curriculum development, intervention, assessment, and digital contexts, as well as teaching second-language learners. Also addressed is DBR’s role in educator preparation, professional development, dissertation research, and technical education.
This book addresses key issues concerning visualization in the teaching and learning of science at any level in educational systems. It is the first book specifically on visualization in science education. The book draws on the insights from cognitive psychology, science, and education, by experts from five countries. It unites these with the practice of science education, particularly the ever-increasing use of computer-managed modelling packages.
This book comprises a wide range of scholarly essays introducing readers to key topics and issues in science education. Science education has become a well established field in its own right, with a vast literature, and many active areas of scholarship. Science Education: An International Course Companion offers an entry point for students seeking a sound but introductory understanding of the key perspectives and areas of thinking in science education. Each account is self-contained and offers a scholarly and research-informed introduction to a particular topic, theme, or perspective, with both citations to key literature and recommendations for more advanced reading. Science Education: An International Course Companion allows readers (such as those preparing for school science teaching, or seeking more advanced specialist qualifications) to obtain a broad familiarity with key issues across the field as well as guiding wider reading about particular topics of interest. The book therefore acts as a reader to support learning across courses in science education internationally. The broad coverage of topics is such that that the book will support students following a diverse range of courses and qualifications. The comprehensive nature of the book will allow course leaders and departments to nominate the book as the key reader to support students - their core 'course companion' in science education.
