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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.
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.
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.
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
Opening with an overview of the renewal of interest in rhetoric for inquiries of all kinds, this volume addresses rhetoric in individual disciplines - mathematics, anthropology, psychology, economics, sociology, political science and history. Drawing from recent literary theory, it suggests the contribution of the humanities to the rhetoric of inquiry and explores communications beyond the academy, particulary in women's issues, religion and law. The final essays speak from the field of communication studies, where the study of rhetoric usually makes its home.
This study recapitulates basic developments in the tradition of hermeneutic and phenomenological studies of science. It focuses on the ways in which scientific research is committed to the universe of interpretative phenomena. It treats scientific research by addressing its characteristic hermeneutic situations, and uses the following basic argument in this treatment: By demonstrating that science’s epistemological identity is not to be spelled out in terms of objectivism, mathematical essentialism, representationalism, and foundationalism, one undermines scientism without succumbing scientific research to “procedures of normative-democratic control” that threaten science’s cognitive autonomy. The study shows that in contrast to social constructivism, hermeneutic phenomenology of scientific research makes the case that overcoming scientism does not imply restrictive policies regarding the constitution of scientific objects.
Educational researchers are bound to see this as a timely work. It brings together the work of leading experts in argumentation in science education. It presents research combining theoretical and empirical perspectives relevant for secondary science classrooms. Since the 1990s, argumentation studies have increased at a rapid pace, from stray papers to a wealth of research exploring ever more sophisticated issues. It is this fact that makes this volume so crucial.
Are you interested in using argument-driven inquiry for middle school lab instruction but just aren’t sure how to do it? Argument-Driven Inquiry in Physical Science will provide you with both the information and instructional materials you need to start using this method right away. The book is a one-stop source of expertise, advice, and investigations to help physical science students work the way scientists do. The book is divided into two basic parts: 1. An introduction to the stages of argument-driven inquiry—from question identification, data analysis, and argument development and evaluation to double-blind peer review and report revision. 2. A well-organized series of 22 field-tested labs designed to be much more authentic for instruction than traditional laboratory activities. The labs cover four core ideas in physical science: matter, motion and forces, energy, and waves. Students dig into important content and learn scientific practices as they figure out everything from how thermal energy works to what could make an action figure jump higher. The authors are veteran teachers who know your time constraints, so they designed the book with easy-to-use reproducible student pages, teacher notes, and checkout questions. The labs also support today’s standards and will help your students learn the core ideas, crosscutting concepts, and scientific practices found in the Next Generation Science Standards. In addition, the authors offer ways for students to develop the disciplinary skills outlined in the Common Core State Standards. Many of today’s middle school teachers—like you—want to find new ways to engage students in scientific practices and help students learn more from lab activities. Argument-Driven Inquiry in Physical Science does all of this while also giving students the chance to practice reading, writing, speaking, and using math in the context of science.