Name: Modeling Mathematical Ideas By Jennifer M. Suh
SKU: 9781475817591
Price: 37.31 USD
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Modeling Mathematical Ideas Summary

Modeling Mathematical Ideas: Developing Strategic Competence in Elementary and Middle School by Jennifer M. Suh

Modeling Mathematical Ideas combines current research and practical strategies to build teachers and students strategic competence in problem solving. This informative book supports teachers in understanding learning progressions that address conceptual guiding posts, as well as students' common misconceptions, in investigating and discussing important mathematical ideas related to number sense, computational fluency, algebraic thinking and proportional reasoning. In each chapter, the authors opens with a rich real-world mathematical problem and presents classroom strategies (such as visible thinking strategies & technology integration) and other related problems to develop students' strategic competence in modeling mathematical ideas.

Modeling Mathematical Ideas Reviews

Modeling mathematical ideas offers teachers a practical guide to leading third- through eighth-grade students to develop strategic competence and to use models to solve cognitively demanding tasks.... A few main strengths of the book are the insights provided to readers about the implementation of the tasks and the inclusion of a variety of models that students use when solving the tasks.... The content of this book will help educators become skillful teachers of modelers and of the mathematical content associated with each task. The book is a good choice for teachers looking to implement modeling into their classroom. This is also a great resource for a preservice math methods course. * Teaching Children Mathematics *
The authors of Modeling Mathematical Ideas deconstruct the concepts of models and modeling, both from a mathematical perspective and a pedagogical perspective. Through a variety of examples from real research lesson experiences, called Lesson Study Vignettes, the authors bring to life the concepts and principles of models and modeling. Pre-service and practicing teachers will find the text is filled with multiple representations and technology examples, rich illustrations of students' work, in-depth modeling exemplars, and a variety of engaging and real world problems to pursue. A must-read for any instructor who wants to become an expert on models and modeling! -- Patricia S. Moyer-Packenham, PhD, Professor, Mathematics Education, Director, Mathematics Education and Leadership Programs, Utah State University
This book is a great resource for mathematics teachers and professional development providers. The concepts are clearly presented using both classic and novel real-world problems to highlight the process of mathematical modeling through problem solving. The lesson study vignettes and student-work samples are great ways to generate discussions among teachers because they illustrate how teachers and students think about the concepts and engage in classrooms. I will definitely use this book in my mathematics methods courses and workshops! -- Dorothy Y. White, PhD, Associate Professor of Mathematics Education, University of Georgia
Modeling Mathematical Ideas provides strong support for how to help students develop strategic competence in K-8 mathematics. The lesson study vignettes, student work examples, discussion of the mathematics, suggestions for student solution sharing, and the many rich tasks makes this a pragmatic resource for individual teachers, as well as groups of teachers engaging in their own lesson studies! -- Jennifer M. Bay-Williams, PhD, University of Louisville

About Jennifer M. Suh

Jennifer Suh is associate professor in the Graduate School of Education, College of Education and Human Development, George Mason University. Dr. Suh teaches mathematics methods courses in the Elementary Education Program and mathematics leadership courses for the Mathematics Specialist Masters and PH.D Programs. She directs the Center for Outreach in Mathematics Professional Learning and Educational Technology, COMPLETE, a joint center between the College of Education and the College of Science. Her research focuses on mathematics teacher development while using Lesson Study to develop pedagogical mathematics knowledge across the continuum from pre-service teachers to mathematics teacher leaders; Children's development of mathematical meaning and models by building understanding and representational fluency; Problem-based Learning Environments to promote equitable access to 21st century skills: Creativity, Critical Thinking, Communication and Collaboration for diverse student populations in STEM disciplines. Padmanabhan Seshaiyer is professor of mathematical sciences and serves as the Director of the STEM Accelerator Program and the Center for Outreach in Mathematics Professional Learning and Educational Technology (COMPLETE) at George Mason University in Fairfax, Virginia. During the last decade, he has initiated and directed a variety of educational programs including graduate and undergraduate research, K-12 outreach, teacher professional development, and enrichment programs to foster the interest of students and teachers in mathematical modeling and STEM at all levels. He is also actively involved in multiple global initiatives and training programs that engage students, teachers and faculty to develop innovative STEM-based solutions to real-world problems.

Chapter 1: Developing Strategic Competence through Modeling Mathematical Ideas 1.1 Developing Strategic Competence through Modeling Mathematical Ideas 1.2 Promoting Math Proficiency and Mathematical Practices 1.3 Problem Solving and Mathematical Modeling in the Elementary and Middle Grades 1.4 Multiple Representations and Strategies as Tools to Cultivate Visible Thinking in Mathematics 1.5 Importance of Understanding the Vertical Learning Progression to Deepen Students' Mathematical Understanding 1.6 Technology Integration in Problem Solving 1.7 More Related Rich Problems to Explore Chapter 2: Setting Math Norms to Promote Math Reasoning and Modeling 2. 1 Developing Persistent Problem Solvers with a Productive Disposition towards Math 2.2 Unpacking the Mathematics for Deeper Conceptual Learning 2.3 Choosing Worthwhile Tasks through Cognitive Demand Analysis 2.4 Promoting the Core Teaching Practices through Research Lessons 2.5 Integration Technology and Connecting to the Learning Progression 2.6 Assessing Students Understanding through a Problem-based Task Chapter 3: Engaging in Mathematical Modeling in the Elementary and Middle Grades 3.1 Math Modeling in the Elementary and Middle Grades: What are the building blocks? 3.2 Mathematical Modeling through Unstructured Real-World Problems 3.3. Lesson Study Focus on the Mathematical Modeling: Traffic Jam 3.4 Promoting the 21st Century Skills 3.5 Technology Integration in Problem Posing and Problem Solving 3.6 A Related Rich Problem to Explore Chapter 4: Modeling Math Ideas with Numbers and Operations 4.1 Lesson Study Vignette: Prime and Composite Numbers 4.2 Visible Thinking in Math: Using Multiple Representations 4.3 Zooming in on the Learning Progression of Numbers and Operations 4.4 Teaching Strategies: Using Math Happenings 4.5 Connecting Procedural Fluency and Conceptual Understanding 4.6 Technology Integration in Problem Solving 4.7 More Related Rich Problems to Explore Chapter 5: Modeling Math Ideas with Patterns & Algebraic Reasoning 5.1 Lesson Study Vignette - Growing Staircase problem 5.2 Visible Thinking in Math: Using a Modeling Math Mat 5.3 Patterns and Algebra: Zooming in on the Learning Progressions 5.4 Teaching Strategies: Promoting the Algebraic Habits of Mind 5.5 Lesson Vignette: What Would You Choose? Analyzing Change in Number Patterns 5.6 Technology Integration in Problem Solving 5.7 More Related Rich Problems to Explore Chapter 6: Modeling Math Ideas with Equations and Inequalities 6.1 Lesson Study Vignette: Setting a Math Learning Agenda 6.2 Zooming in on the Learning Progressions for Algebra 6.3 Visible Thinking in Math: Naming, Sequencing and Connecting Math Strategies 6.4 Teaching Strategies: Using Misconceptions to Repair Understanding &Looking for Efficiency 6.5 Technology Integration in Problem Solving 6.6 More Related Rich Problems to Explore Chapter 7: Modeling Math Ideas with Fractions 7.1 Lesson Study Vignette: The Unusual Baker 7.2 Visible Thinking in Math: Assessing Student Learning through Classroom Artifacts 7.3 Zooming in on the Learning Progressions: Fractions 7.4 Implementing mathematical tasks that promote reasoning and problem solving 7.5 Teaching Strategies, Using Representations and Overcoming Common Misconception 7.6 Technology Integration in Problem Solving 7.7 More Related Rich Problems to Explore Chapter 8: Modeling Math Ideas with Fraction Computation 8.1 Lesson Study Vignette: Stuffed with Pizza- Adding fractions 8.2 Visible Learning in Math- Using Tools to Prove their Thinking 8.3 Learning Progression in Fraction Operations 8.4 Lesson Study Vignette: Share My Candy 8.5 Teaching Strategies: Strategy mapping on the board plan 8.6 Use of students' diversity of strategies as pedagogical content tools 8.7 Technology Integration in Problem Solving 8.8 More Related Rich Problems to Explore Chapter 9: Modeling Math Ideas with Ratio and Proportional Reasoning 9.1 Lesson Study Vignette: The Leaky Bathtub 9.2 Zooming in on the Learning Progressions on Proportional Reasoning 9.3 Visible Thinking in Math: Using Representational models for proportional reasoning 9.4 Lesson study vignette: The Cathedral Problem 9.5 Deepening Teacher Knowledge and their Strategic Competence 9.6 Promoting Reasoning to Rich tasks 9.7 Technology Integration in Problem Solving 9.8 More Related Rich Problems to Explore Chapter 10: Pulling it all Together: Strengthening Strategic Competence through Modeling Mathematics Ideas 10.1 Practice-based Activities to Focus on Models and Modeling within our Standards 10.2 Modeling Math with Tools and Representations 10.3 Understanding Conceptual and Interpretative Models of Math Ideas 10.4 Modeling Math through Problem Solving and Problem Posing Tasks 10.5 Mathematical Modeling through Unstructured Real-World Problems 10.6 Strengthening Strategic Competence for Modeling Mathematical Ideas Appendix References

Additional information

Sku

CIN1475817592G

ISBN 13

9781475817591

ISBN 10

1475817592

Title

Modeling Mathematical Ideas: Developing Strategic Competence in Elementary and Middle School by Jennifer M. Suh

Author

Jennifer M. Suh

Condition

Used - Good

Binding type

Paperback

Publisher

Rowman & Littlefield

Year published

2016-12-23

Number of pages

226

Prizes

N/A

Cover note

Book picture is for illustrative purposes only, actual binding, cover or edition may vary.

Note

This is a used book - there is no escaping the fact it has been read by someone else and it will show signs of wear and previous use. Overall we expect it to be in good condition, but if you are not entirely satisfied please get in touch with us

Modeling Mathematical Ideas Jennifer M. Suh

Modeling Mathematical Ideas by Jennifer M. Suh

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Modeling Mathematical Ideas Summary

Modeling Mathematical Ideas: Developing Strategic Competence in Elementary and Middle School by Jennifer M. Suh

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About Jennifer M. Suh

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