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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.
With a focus on what mathematics and science educators need to know about academic language used in the STEM disciplines, this book critically synthesizes the current knowledge base on language challenges inherent to learning mathematics and science, with particular attention to the unique issues for English learners. These key questions are addressed: When and how do students develop mastery of the language registers unique to mathematics and to the sciences? How do teachers use assessment as evidence of student learning for both accountability and instructional purposes? Orienting each chapter with a research review and drawing out important Focus Points, chapter authors examine the obstacles to and latest ideas for improving STEM literacy, and discuss implications for future research and practice.
The imperative that all students, including English learners (ELs), achieve high academic standards and have opportunities to participate in science, technology, engineering, and mathematics (STEM) learning has become even more urgent and complex given shifts in science and mathematics standards. As a group, these students are underrepresented in STEM fields in college and in the workforce at a time when the demand for workers and professionals in STEM fields is unmet and increasing. However, English learners bring a wealth of resources to STEM learning, including knowledge and interest in STEM-related content that is born out of their experiences in their homes and communities, home languages, variation in discourse practices, and, in some cases, experiences with schooling in other countries. English Learners in STEM Subjects: Transforming Classrooms, Schools, and Lives examines the research on ELs' learning, teaching, and assessment in STEM subjects and provides guidance on how to improve learning outcomes in STEM for these students. This report considers the complex social and academic use of language delineated in the new mathematics and science standards, the diversity of the population of ELs, and the integration of English as a second language instruction with core instructional programs in STEM.
This practical guide helps teachers effectively integrate reading strategy instruction, language analysis, and trade books into inquiry-based science classrooms to promote content learning. Inspired by a middle school reading-science integration project, this book explores: The science reading connection and the function of inquiry in science education The challenges associated with science reading and classroom-based strategies for learning language and science The role of literature in the science curriculum How to develop a home science reading program
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 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 is exemplified and explained in 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 STEM and the ways in which function in these professions and academic disciplines can benefit from the research and educational knowledge of applied linguists.
Responding to the linguistic and cultural diversity of the U.S. K–12 student population and an increasing emphasis on STEM, this book offers a model for professional development that engages teachers in transformative action research projects and explicitly links literacy to mathematics and science curriculum through sociocultural principles. Providing detailed and meaningful demonstrations of participatory action research in the classroom, Razfar and Troiano present an effective, systemic approach that helps preservice teachers support students’ funds of knowledge. By featuring teacher and researcher narratives, this book centers teacher expertise and offers a more holistic and humanistic understanding of authentic and empathetic teaching. Focusing on integrating instructional knowledge from ESL, bilingual, and STEM education, the range of cases and examples will allow readers to implement action research projects in their own classrooms. Chapters include discussion questions and additional resources for students, researchers, and educators.
Providing an original framework for the study of makerspaces in a literacy context, this book bridges the scholarship of literacy studies and STEM and offers a window into the practices that makers learn and interact with. Tucker-Raymond and Gravel define and illustrate five key STEM literacies—identifying, organizing, and integrating information; creating and traversing representations; communicating with others for help and feedback during making; documenting processes; and communicating finished products—and demonstrate how these literacies intersect with making communities. Through careful observation and analysis of multiple case studies, the authors highlight the impact of research and practice to support teaching and making in a variety of environments. Using a nuanced, engaging framework, they examine the necessary skills required to develop and foster makerspaces in formal and informal contexts for all students. Grounded in cutting-edge research, this volume paves the way for future study on supporting making and literacies in STEM.
This book is designed to build educators’ confidence and competence so they can bring STEM to life with young children. The authors encourage pre–K teachers to discover the value of engaging preschoolers in scientific inquiry, technological explorations, engineering challenges, and math experiences based on learning trajectories. They explain the big ideas in STEM, emphasizing teaching strategies that support these activities (such as language-rich STEM interactions), and describe ways to integrate concepts across disciplines. The text features research-based resources, examples of field-tested activities, and highlights from the classroom. Drawing from a professional development model that was developed with funding from the National Science Foundation, this book is an essential resource for anyone who wants to support preschool children to be STEM thinkers and doers. “I have read a lot of really good early childhood science education books over the years, and as far as I am concerned, this is the best one yet.” —From the Foreword by Betty Zan, University of Northern Iowa “This excellent book shows that the important ideas of STEM are within every teacher’s and child’s grasp.” —Douglas Clements, University of Denver “Teaches STEM content while sharing strategies for robust and developmentally appropriate instructional practice. This book is the real deal!” —Beth Graue, University of Wisconsin–Madison
This book argues that integrating artistic contributions – with an emphasis on culture and language – can make Science, Technology, Engineering and Mathematics (STEM) subjects more accessible, and therefore promote creativity and innovation in teaching and learning at all levels of education. It provides tools and strategies for managing interdisciplinary learning and teaching based on successful collaborations between researchers, practitioners and artists in the fields of the Arts and STEM subjects. Based on contributions by educators, scientists, scholars, linguistics and artists from around the globe, the book highlights how we can demonstrate teamwork and collaboration for innovation and creativity in STEAM subjects in the classroom and beyond. The book reflects the core of human rights education, using local languages and local knowledge through art as a tool for teaching human rights at school, and bringing to light questions on diversity, ecology, climate change, environmental issues, health and the future of human beings, as well as power relations between non-dominant (minorities) and dominant (the majority) groups in society.
STEM Education 2.0 discusses the most recent research on important selected K-12 STEM topics by synthesizing previous research and offering new research questions. The contributions range from analysis of key STEM issues that have been studied for more than two decades to topics that have more recently became popular, such as maker space and robotics. In each chapter, nationally and internationally known STEM experts review key literature in the field, share findings of their own research with its implications for K-12 STEM education, and finally offer future research areas and questions in the respected area they have been studying. This volume provides diverse and leading voices in the future of STEM education and STEM education research.