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Science in secondary schools has tended to be viewed mainly as a 'practical subject', and language and literacy in science education have been neglected. But learning the language of science is a major part of science education: every science lesson is a language lesson, and language is a major barrier to most school students in learning science. This accessible book explores the main difficulties in the language of science and examines practical ways to aid students in retaining, understanding, reading, speaking and writing scientific language. Jerry Wellington and Jonathan Osborne draw together and synthesize current good practice, thinking and research in this field. They use many practical examples, illustrations and tried-and-tested materials to exemplify principles and to provide guidelines in developing language and literacy in the learning of science. They also consider the impact that the growing use of information and communications technology has had, and will have, on writing, reading and information handling in science lessons. The authors argue that paying more attention to language in science classrooms is one of the most important acts in improving the quality of science education. This is a significant and very readable book for all student and practising secondary school science teachers, for science advisers and school mentors.
Science in secondary schools has tended to be viewed mainly as a 'practical subject', and language and literacy in science education have been neglected. But learning the language of science is a major part of science education: every science lesson is a language lesson, and language is a major barrier to most school students in learning science. This accessible book explores the main difficulties in the language of science and examines practical ways to aid students in retaining, understanding, reading, speaking and writing scientific language.
This book highlights recent developments in literacy research in science teaching and learning from countries such as Australia, Brazil, China, Finland, Germany, Hong Kong, New Zealand, Norway, Singapore, Spain, South Africa, Sweden, Taiwan, and the United States. It includes multiple topics and perspectives on the role of literacy in enhancing science teaching and learning, such as the struggles faced by students in science literacy learning, case studies and evaluations of classroom-based interventions, and the challenges encountered in the science classrooms. It offers a critical and comprehensive investigation on numerous emerging themes in the area of literacy and science education, including disciplinary literacy, scientific literacy, classroom discourse, multimodality, language and representations of science, and content and language integrated learning (CLIL). The diversity of views and research contexts in this volume presents a useful introductory handbook for academics, researchers, and graduate students working in this specialized niche area. With a wealth of instructional ideas and innovations, it is also highly relevant for teachers and teacher educators seeking to improve science teaching and learning through the use of literacy.
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.
This book presents the findings of two case studies in the 'Making Connections' two-year project funded by the New Zealand Ministry of Education. It shows how science literacy was improved in a state coeducational school with Pacific Island students from diverse linguistic backgrounds. This book details ideas and strategies relevant to schools where English literacy has an impact on the science engagement and achievement of ethnically diverse student populations. It also presents the teaching as inquiry model and its usage by teachers to improve aspects of their teaching strategies.
In this era of mandated high stakes and standardized testing, teachers and schools officials find themselves struggling to meet the demands for improved student achievement. At the same time, they are also expected to teach all subjects as required by national and state curriculum standards.
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 book is an introduction to the interdisciplinary field of applied linguistics/literacies studies in STEM (science, technology, engineering and mathematics). It brings together a renowned host of experts involved in actual research projects on STEM practice and education. The book presents a range of projects covering the areas of science, engineering, and mathematics and provides a conceptualization of the concepts and methodologies that underpin these projects. A range of epistemologies, approaches, and methodologies including discourse/conversation analysis, ethnographic/content analysis and text linguistic analysis are exemplified and explained in the relation to specific interdisciplinary studies in STEM. This book provides a much-needed introduction to the ways in which applied linguists can work in the areas of science, engineering, and mathematics and ways in which work in these professions and academic disciplines can benefit from the research and educational knowledge of applied linguists.
Secondary Science Teaching for English Learners: Developing Supportive and Responsive Learning Context for Sense-making and Language Development provides a resource for multiple audiences, including pre- and in-service secondary science teachers, science teacher educators, instructional coaches, curriculum specialists, and administrators, to learn about a research-based approach to teaching science that responds to the growing population of English learners in the United States. The book offers clear definitions of pedagogical practices supported by classroom examples and a cohesive framework for teaching science in linguistically diverse classrooms. The Secondary Science Teaching with English Language and Literacy Acquisition (or SSTELLA) Framework addresses how learning science is enhanced through meaningful and relevant learning experiences that integrate discipline-specific literacy. In particular, four core science teaching practices are described: (1) contextualized science activity, (2) scientific sense-making through scientific and engineering practices, (3) scientific discourse, and (4) English language and disciplinary literacy development. These four core practices are supported by sound theory and research based on unscripted guidelines and flexible modifications of science lessons. Moreover, the four interrelated practices promote students’ use of core science ideas while reading, writing, talking, and doing science, thus reflecting principles from Next Generation Science Standards, Common Core State Standards for English Language Arts, and English language proficiency standards. Secondary Science Teaching provides readers with a historical and theoretical basis for integrating language, literacy, and science in multilingual science classrooms, and well as explicit models and guided support teachers in enacting effective teaching practices in the classroom, including comparative vignettes to distinguish between different types of classroom practice.