About this product

Product Identifiers

PublisherHeinemann

ISBN-100325010706

ISBN-139780325010700

eBay Product ID (ePID)57189088

Product Key Features

Educational LevelHigh School, Elementary School

Number of Pages224 Pages

Publication NameWriting in Science : How to Scaffold Instruction to Support Learning

LanguageEnglish

Publication Year2007

SubjectStudy & Teaching, Teaching Methods & Materials / Science & Technology, Learning Styles

TypeStudy Guide

AuthorBetsy Fulwiler

Subject AreaLanguage Arts & Disciplines, Education

FormatTrade Paperback

Dimensions

Item Height0.5 in

Item Weight19.1 Oz

Item Length11 in

Item Width8.5 in

Additional Product Features

Intended AudienceElementary/High School

LCCN2007-001638

Dewey Edition22

Grade FromKindergarten

IllustratedYes

Dewey Decimal372.35044

Grade ToFifth Grade

SynopsisThe author and the Seattle Science Notebook Program have outlined the strategies of using science notebooks with a diverse population of students and documented their effectiveness. The thoughtful approach, well explained in the book, keeps the goals of inquiry-based science and writing clearly focused and mutually supportive. - Harold Pratt Former President, National Science Teachers Association This book does more than make a case for science notebooks. It provides specific teaching guidelines, strategies, activities, and rich examples of student work that teachers can use to craft their own notebook program. - Karen Worth Author of Worms, Shadows, and Whirlpools In the science classroom writing is much more than an exercise for students to document their steps during an investigation. It's an important vehicle for describing their thought processes and the evidence that supports their reasoning. Writing in Science shows you how to encourage students to grow as scientists and writers by moving beyond recounting how they completed their work and toward explaining what they learned. Writing in Science shares proven methods for supporting improvement in how students write and think about science. It provides practical guidelines for using science notebooks in grades K - 5 to teach and assess science writing in a way that develops students' conceptual knowledge and expository writing abilities as well as their thinking and scientific skills. Betsy Rupp Fulwiler shares strategies for scaffolding and modeling higher-level forms of scientific writing such as: observations cause and effect comparisons data analysis conclusions. Fulwiler packs Writing in Science with numerous illustrations and tools to get you started, including: more than 50 entries from science notebooks, annotated with remarks about instruction and formative assessment scientific writing from English language learners and special-needs students examples and focus questions that apply to 18 popular units from the widely used STC, FOSS, and Insights kits 17 blackline masters of graphic organizers and writing frameworks specific assessment protocols and guidelines to help you analyze notebook entries and provide constructive, formative feedback to students planning guidelines that explain how to develop writing curricula for science units. Best of all, Fulwiler's methods are not only backed by research but have also been successfully implemented in the Seattle Public Schools. Help students develop their scientific thinking in an incredibly effective way: by writing. Push them away from detailing procedures and into writing that helps them grow as writers, scientific thinkers, and learners. And do it all while meeting inquiry-based science goals and supporting writing instruction across the content areas. Read Writing in Science - you'll discover that pencil and paper are among the most important materials in any scientific experiment., "The author and the Seattle Science Notebook Program have outlined the strategies of using science notebooks with a diverse population of students and documented their effectiveness. The thoughtful approach, well explained in the book, keeps the goals of inquiry-based science and writing clearly focused and mutually supportive." - Harold PrattFormer President, National Science Teachers Associations"Thissbook does more than make a case for science notebooks. Itsprovides specific teaching guidelines, strategies, activities, and rich examples of student work that teachers can use to craft their own notebook program." - Karen WorthAuthor of "Worms,"" Shadows, and Whirlpools"sIn the science classroom writing is much more than an exercise for students to document their steps during an investigation. It's an important vehicle for describing their thought processes and the evidence that supports their reasoning. "Writing in Science" shows you how to encourage students to grow as scientists and writers by moving beyond recounting "how" they completed their work and toward explaining "what" they learned.s"Writing in Science" shares proven methods for supporting improvement in how students write and think about science. It provides practical guidelines for using science notebooks in grades K - 5 to teach and assess science writing in a way that develops students' conceptual knowledge and expository writing abilities as well as their thinking and scientific skills. Betsy Rupp Fulwiler shares strategies for scaffolding and modeling higher-level forms of scientific writing such as: observations cause and effect comparisons data analysis conclusions.sFulwiler packs "Writing in Science "with numerousillustrations and tools to get you started, including: more than 50 entries from science notebooks, annotated with remarks about instruction and formative assessment scientific writing from English language learners and special-needs students examples and focus questions that apply to 18 popular units from the widely used STC, FOSS, and Insights kits 17 blackline masters of graphic organizers and writing frameworks specific assessment protocols and guidelines to help you analyze notebook entries and provide constructive, formative feedback to students planning guidelines that explain how to develop writing curricula for science units.Best of all, Fulwiler's methods are not only backed by research but have also been successfully implemented in the Seattle Public Schools. sHelp students develop their scientific thinking in an incredibly effective way: by writing. Push them away from detailing procedures and into writing that helps them grow as writers, scientific thinkers, and learners. And do it all while meeting inquiry-based science goals and supporting writing instruction across the content areas. Read "Writing in Science" - you'll discover that pencil and paper are among the most important materials in any scientific experiment., The author and the Seattle Science Notebook Program have outlined the strategies of using science notebooks with a diverse population of students and documented their effectiveness. The thoughtful approach, well explained in the book, keeps the goals of inquiry-based science and writing clearly focused and mutually supportive. - Harold Pratt Former President, National Science Teachers Association This book does more than make a case for science notebooks. It provides specific teaching guidelines, strategies, activities, and rich examples of student work that teachers can use to craft their own notebook program. - Karen Worth Author of Worms , Shadows, and Whirlpools In the science classroom writing is much more than an exercise for students to document their steps during an investigation. It's an important vehicle for describing their thought processes and the evidence that supports their reasoning. Writing in Science shows you how to encourage students to grow as scientists and writers by moving beyond recounting how they completed their work and toward explaining what they learned. Writing in Science shares proven methods for supporting improvement in how students write and think about science. It provides practical guidelines for using science notebooks in grades K - 5 to teach and assess science writing in a way that develops students' conceptual knowledge and expository writing abilities as well as their thinking and scientific skills. Betsy Rupp Fulwiler shares strategies for scaffolding and modeling higher-level forms of scientific writing such as: observations cause and effect comparisons data analysis conclusions. Fulwiler packs Writing in Science with numerous illustrations and tools to get you started, including: more than 50 entries from science notebooks, annotated with remarks about instruction and formative assessment scientific writing from English language learners and special-needs students examples and focus questions that apply to 18 popular units from the widely used STC, FOSS, and Insights kits 17 blackline masters of graphic organizers and writing frameworks specific assessment protocols and guidelines to help you analyze notebook entries and provide constructive, formative feedback to students planning guidelines that explain how to develop writing curricula for science units. Best of all, Fulwiler's methods are not only backed by research but have also been successfully implemented in the Seattle Public Schools. Help students develop their scientific thinking in an incredibly effective way: by writing. Push them away from detailing procedures and into writing that helps them grow as writers, scientific thinkers, and learners. And do it all while meeting inquiry-based science goals and supporting writing instruction across the content areas. Read Writing in Science - you'll discover that pencil and paper are among the most important materials in any scientific experiment., The author and the Seattle Science Notebook Program have outlined the strategies of using science notebooks with a diverse population of students and documented their effectiveness. The thoughtful approach, well explained in the book, keeps the goals of inquiry-based science and writing clearly focused and mutually supportive. Harold Pratt Former President, National Science Teachers Association Thisbook does more than make a case for science notebooks. Itprovides specific teaching guidelines, strategies, activities, and rich examples of student work that teachers can use to craft their own notebook program. Karen Worth Author of Worms , Shadows, and Whirlpools In the science classroom writing is much more than an exercise for students to document their steps during an investigation. Its an important vehicle for describing their thought processes and the evidence that supports their reasoning. Writing in Science shows you how to encourage students to grow as scientists and writers by moving beyond recounting how they completed their work and toward explaining what they learned. Writing in Science shares proven methods for supporting improvement in how students write and think about science. It provides practical guidelines for using science notebooks in grades K5 to teach and assess science writing in a way that develops students conceptual knowledge and expository writing abilities as well as their thinking and scientific skills. Betsy Rupp Fulwiler shares strategies for scaffolding and modeling higher-level forms of scientific writing such as: observations cause and effect comparisons data analysis conclusions. Fulwiler packs Writing in Science with numerous illustrations and tools to get you started, including: more than 50 entries from science notebooks, annotated with remarks about instruction and formative assessment scientific writing from English language learners and special-needs students examples and focus questions that apply to 18 popular units from the widely used STC, FOSS, and Insights kits 17 blackline masters of graphic organizers and writing frameworks specific assessment protocols and guidelines to help you analyze notebook entries and provide constructive, formative feedback to students planning guidelines that explain how to develop writing curricula for science units. Best of all, Fulwilers methods are not only backed by research but have also been successfully implemented in the Seattle Public Schools. Help students develop their scientific thinking in an incredibly effective way: by writing. Push them away from detailing procedures and into writing that helps them grow as writers, scientific thinkers, and learners. And do it all while meeting inquiry-based science goals and supporting writing instruction across the content areas. Read Writing in Science youll discover that pencil and paper are among the most important materials in any scientific experiment.

LC Classification NumberLB1585.3.F85 2007

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Writing in Science : How to Scaffold Instruction to Support Learning by Betsy Fulwiler (2007, Trade Paperback)

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