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Science Inquiry, Argument and Language describes research that has focused on addressing the issue of embedding language practices within science inquiry through the use of the Science Writing Heuristic approach. In recent years much attention has been given to two areas of science education, scientific argumentation and science literacy. The research into scientific argument have adopted different orientations with some focusing on science argument as separate to normal teaching practices, that is, teaching students about science argument prior to using it in the classroom context; while others have focused on embedding science argument as a critical component of the inquiry process. The current emphasis on science literacy has emerged because of greater understanding of the role of language in doing and reporting on science. Science is not viewed as being separate from language, and thus there is emerging research emphasis on how best to improving science teaching and learning through a language perspective. Again the research orientations are parallel to the research on scientific argumentation in that the focus is generally between instruction separate to practice as opposed to embedding language practices within the science classroom context.
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.
Develop your high school students' understanding of argumentation and evidence-based reasoning with this comprehensive book. Like three guides in one 'Scientific Argumentation in Biology' combines theory, practice, and biology content.
Knowing from the inside out how argument works is a literacy skill now universally recognized as essential. This is the goal of real reading, writing, and speaking - and finally the gift of real science. I am grateful to the authors of this volume for making these gifts available to science and literacy teachers, but most importantly, to all of our students. - Wendy Saul Author of Science Workshop The best way to transform students' scientific thinking is by transforming their science writing. Writing is thinking and with Negotiating Science you'll move from rote procedures to the kind of writing that real scientists do. Your students will learn to negotiate meaning from the results of their work and to argue for their ideas - posing questions, documenting evidence, making claims, and sharing data. Perfect for science notebooks Leading you through an argument-based approach to science writing that is grounded in highly effective practices, Negotiating Science: demonstrates what good science arguments look like through student samples. models and supports top-notch instruction through teaching tools and templates adaptable to any classroom. contains guidelines that make assessment seamless and manageable. includes "Have a Go" activities help you make the transition from traditional science writing to argument-based writing. Best of all, the writing Negotiating Science advocates can support your school's nonfiction and content-area writing goals. Give students the chance to deepen their connection to science by writing for authentic purposes. See the dramatic difference it makes when students negotiate the meaning of concepts and content the way real scientists do. All while you meet schoolwide writing objectives. Read Negotiating Science and unlock the power of writing in your science classroom.
Proven ways to teach next generation science! To ensure our students achieve scientific literacy, we need to know what works in science teaching. One thing we know for certain: inquiry and argumentation are key. This groundbreaking book for Grades 9–12 addresses the new direction of science standards by emphasizing both inquiry-based and argument-based instruction. Filled with case studies and vignettes, this edition features: Exceptional coverage of scientific argumentation Enhanced chapters on assessment and classroom management Questioning techniques that promote the most learning Activities that emphasize making claims and citing evidence New examples of inquiry investigations New approaches to traditional labs
Statistical models attempt to describe and quantify relationships between variables. In the models presented in this chapter, there is a response variable (sometimes called dependent variable) and at least one predictor variable (sometimes called independent or explanatory variable). When investigating a possible cause-and-effect type of relationship, the response variable is the putative effect and the predictors are the hypothesized causes. Typically, there is a main predictor variable of interest; other predictors in the model are called covariates. Unknown covariates or other independent variables not controlled in an experiment or analysis can affect the dependent or outcome variable and mislead the conclusions made from the inquiry (Bock, Velleman, & De Veaux, 2009). A p value (p) measures the statistical significance of the observed relationship; given the model, p is the probability that a relationship is seen by mere chance. The smaller the p value, the more confident we can be that the pattern seen in the data 2 is not random. In the type of models examined here, the R measures the prop- tion of the variation in the response variable that is explained by the predictors 2 specified in the model; if R is close to 1, then almost all the variation in the response variable has been explained. This measure is also known as the multiple correlation coefficient. Statistical studies can be grouped into two types: experimental and observational.
This book establishes a new theoretical and practical framework for multimodal disciplinary literacy (MDL) fused with the subject-specific science pedagogies of senior high school biology, chemistry and physics. It builds a compatible alignment of multiple representation and representation construction approaches to science pedagogy with the social semiotic, systemic functional linguistic-based approaches to explicit teaching of disciplinary literacy. The early part of the book explicates the transdisciplinary negotiated theoretical underpinning of the MDL framework, followed by the research-informed repertoire of learning experiences that are then articulated into a comprehensive framework of options for the planning of classroom work. Practical adoption and adaptation of the framework in biology, chemistry and physics classrooms are detailed in separate chapters. The latter chapters indicate the impact of the collaborative research on teachers' professional learning and students’ multimodal disciplinary literacy engagement, concluding with proposals for accommodating emerging developments in MDL in an ever-changing digital communication world. The MDL framework is designed to enable teachers to develop all students' disciplinary literacy competencies. This book will be of interest to researchers, teacher educators and postgraduate students in the field of science education. It will also have appeal to those in literacy education and social semiotics. The Open Access version of this book, available at www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives 4.0 license.
Building on the foundation set in Volume I—a landmark synthesis of research in the field—Volume II is a comprehensive, state-of-the-art new volume highlighting new and emerging research perspectives. The contributors, all experts in their research areas, represent the international and gender diversity in the science education research community. The volume is organized around six themes: theory and methods of science education research; science learning; culture, gender, and society and science learning; science teaching; curriculum and assessment in science; science teacher education. Each chapter presents an integrative review of the research on the topic it addresses—pulling together the existing research, working to understand the historical trends and patterns in that body of scholarship, describing how the issue is conceptualized within the literature, how methods and theories have shaped the outcomes of the research, and where the strengths, weaknesses, and gaps are in the literature. Providing guidance to science education faculty and graduate students and leading to new insights and directions for future research, the Handbook of Research on Science Education, Volume II is an essential resource for the entire science education community.
The Routledge International Handbook of Research on Dialogic Education provides a comprehensive overview of the main ideas and themes that make up the exciting and diverse field of Dialogic Education. With contributions from the world’s leading researchers, it describes underpinning theoretical approaches, debates, methodologies, evidence of impact, how Dialogic Education relates to different areas of the curriculum and ways in which work in this field responds to the profound educational challenges of our time. The handbook is divided into seven sections, covering: The theory of Dialogic Education Classroom dialogue Dialogue, teachers and professional development Dialogic Education for literacy and language Dialogic Education and digital technology Dialogic Education in science and mathematics Dialogic Education for transformative purposes Expertly written and researched, the handbook marks the coming of age of Dialogic Education as an important and distinctive area of applied educational research. Featuring chapters from authors working in different educational contexts around the world, the handbook is of international relevance and provides an invaluable resource for researchers and students concerned with the study of educational dialogue and allied areas of socio-cultural research. It will interest students on PhD programmes in Education Faculties, Master's level courses in Education and postgraduate teacher-training courses. The accounts of results achieved by high-impact research projects around the world will also be very valuable for policy makers and practitioners.
With passion, clarity, and rich examples, Reclaiming Writing is dedicated to reawakening the journeys that writers take as they make sense of, think about, and speak back to their worlds in this era of high-stakes testing and mandated curricula. Classrooms and out-of-school settings are described and analyzed in exciting and groundbreaking narratives that provide insights into the many possibilities for writing that support writers’ searches for voice, identity, and agency. Offering pedagogical strategies and the knowledge base in which they are grounded, the book looks at writing within various areas of the curriculum and across modes of writing from traditional text-based forums to digital formats. Thematically based sections present the pillars of the volume’s critical transactive theory: learning, teaching, curriculum, language, and sociocultural contexts. Each chapter is complemented by an extension that offers application possibilities for teachers in various settings. Reclaiming Writing emphasizes literacy as a vehicle for exploring, interrogating, challenging, finding self, talking back to power, creating a space in the world, reflecting upon the past, and thinking forward to a more joyful and democratic future.