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Problem Solving Approach to Mathematics for Elementary School Teachers, A, 13th edition

Published by Pearson (January 2, 2019) © 2020

  • Rick Billstein University of Montana
  • Shlomo Libeskind University of Oregon
  • Johnny Lott University of Montana
  • Barbara Boschmans Northern Arizona University

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For courses in Math for Future Elementary Teachers.

A concept-rich, skill-based approach

A Problem Solving Approach to Mathematics for Elementary School Teachers, 13th Edition not only helps future teachers learn the math, but creates an invaluable reference by including professional development features and discussion of standards. Revised throughout to prepare students more effectively for their own classrooms, the 13th Edition offers instructors a variety of approaches and encourages discussion and collaboration. Common Core Standards are used to highlight concepts, and National Council of Teachers of Mathematics (NCTM) publications are reflected throughout.

Hallmark features of this title

  • The Activity Manual includes classroom-tested activities and perforated, printed color manipulatives.
  • Chapter openers from social media are thought-provoking and prepare students for the material ahead.
  • Connecting Mathematics to the Classroom exercises require interpretation and analysis of the thinking of typical K-8 students.
  • Now Try This exercises follow key examples to help students in their learning, develop critical-thinking and problem-solving skills, and stimulate discussion.
  • Common Core State Standards (CCSS) are cited in sections to focus student attention and provide a springboard for discussion.
  • Extensive Problem Sets are organized into 3 categories for maximum instructor flexibility when assigning homework that address the standards.

New and updated features of this title

  • More relevant and engaging Chapter Opener Problems use examples from social media.
  • Completely reorganized Chapter 3 (Numeration Systems and Whole Number Operations) adheres more closely to the way operations are taught in elementary school. 
  • Reorganized and upgraded Mathematical Connections in the exercise sets reflect current thinking in mathematics education.
  • StatCrunch® is referenced where relevant to enable students to interact with data.
  • Many new solved examples and new problems in assessments appear throughout each chapter. 
  • Tighter connection to the Common Core State Standards is achieved through enhanced treatment of many topics.

Features of MyLab Math for the 13th Edition

  • Completely new section lecture videos incorporate the various resources found in the MyLab Math course, such as animations and IMAP videos.
  • Common Core in Action videos are provided.
  • Animations library is provided.
  • Math Education Insights videos are included in this revision.
  • Common Core Assessment Analysis questions enable students to analyze real CCSS assessment questions.
  • Mindset materials support students in developing a growth mindset and an understanding of how important it is to do so with their future students.
  1. An Introduction to Problem Solving
    • 1-1 Mathematics and Problem Solving
    • 1-2 Explorations with Patterns
    • Chapter 1 Review
  2. Introduction to Logic and Sets
    • 2-1 Reasoning and Logic: An Introduction
    • 2-2 Describing Sets
    • 2-3 Other Set Operations
    • Chapter 2 Review
  3. Numeration Systems and Whole Number Operations
    • 3-1 Numeration Systems
    • 3-2 Addition of Whole Numbers
    • 3-3 Subtraction of Whole Numbers
    • 3-4 Multiplication of Whole Numbers
    • 3-5 Division of Whole Numbers
    • Chapter 3 Review
  4. Number Theory
    • 4-1 Divisibility
    • 4-2 Prime and Composite Numbers
    • 4-3 Greatest Common Divisor and Least Common Multiple
    • * Module A: Clock and Modular Arithmetic–online
    • Chapter 4 Review
  5. Integers
    • 5-1 Addition and Subtraction of Integers
    • 5-2 Multiplication and Division of Integers
    • Chapter 5 Review
  6. Rational Numbers and Proportional Reasoning
    • 6-1 The Set of Rational Numbers
    • 6-2 Addition, Subtraction, and Estimation with Rational Numbers
    • 6-3 Multiplication, Division, and Estimation with Rational Numbers
    • 6-4 Proportional Reasoning
    • Chapter 6 Review
  7. Decimals, Percents, and Real Numbers
    • 7-1 Terminating Decimals
    • 7-2 Operations on Decimals
    • 7-3 Repeating Decimals
    • 7-4 Percents
    • 7-5 Real Numbers
    • Chapter 7 Review
  8. Algebraic Thinking
    • 8-1 Variables
    • 8-2 Equals Relation and Equations
    • 8-3 Functions
    • 8-4 Equations in a Cartesian Coordinate System
    • * Module B: Using Real Numbers in Equations–online
    • Chapter 8 Review
  9. Probability
    • 9-1 Determining Probabilities
    • 9-2 Multistage Experiments and Modeling Games
    • 9-3 Simulations and Applications in Probability
    • 9-4 Permutations and Combinations in Probability
    • Chapter 9 Review
  10. Data Analysis/Statistics: An Introduction
    • 10-1 Designing Experiments/Collecting Data
    • 10-2 Displaying Data: Part I
    • 10-3 Displaying Data: Part II
    • 10-4 Measures of Central Tendency and Variation
    • Chapter 10 Review
  11. Introductory Geometry
    • 11-1 Basic Notions
    • 11-2 Curves, Polygons, and Symmetry
    • 11-3 More About Angles
    • 11-4 Geometry in Three Dimensions
    • * Module C: Networks–online
    • Chapter 11 Review
  12. Congruence and Similarity with Constructions
    • 12-1 Congruence Through Constructions
    • 12-2 Additional Congruence Theorems
    • 12-3 Additional Constructions
    • 12-4 Similar Triangles and Other Similar Figures
    • * Module D: Trigonometry Ratios via Similarity–online
    • Chapter 12 Review
  13. Area, Pythagorean Theorem, and Volume
    • 13-1 Linear Measure
    • 13-2 Areas of Polygons and Circles
    • 13-3 The Pythagorean Theorem, Distance Formula, and Equation of a Circle
    • 13-4 Surface Areas
    • 13-5 Volume, Mass, and Temperature
    • Chapter 13 Review 890
    • Technology Modules
    • * Module E: Spreadsheets–online
    • * Module F: Graphing Calculators–online
    • * Module H: GeoGebra–online
  14. Transformations
    • 14-1 Translations, Rotations, and Tessellations
    • 14-2 Reflections and Glide Reflections
    • 14-3 Dilations 935
    • Chapter 14 Review

Credits

Answers to Problems

Additional Instructor Answers (Annotated Instructor’s Edition only)

About our authors

Rick Billstein is a Professor of Mathematics at the University of Montana. He has worked in mathematics teacher education at this university for over 40 years and his current research is in the areas of curriculum development and mathematics teacher education. He teaches courses for future teachers in the Mathematics Department. He served as the site director for the Show-Me Project, an NSF-funded project supporting the dissemination and implementation of standards-based middle grades mathematics curricula. He worked on the NSF grant Tinker Plots to develop new data analysis software and he serves on the Advisory Boards for several other national projects. From 1992-1997, he directed the NSF-funded Six Through Eight Mathematics (STEM) middle school mathematics curriculum project and is now directing the Middle Grades MATH Thematics Phase II Project. Dr. Billstein has published articles in over 20 different journals and has co-authored over 40 books, including 10 editions of A Problem Solving Approach to Mathematics for Elementary Teachers. He typically does about 25 regional and national presentations per year and has worked in mathematics education at the international level. He presently serves on the Editorial Board of NCTM's Mathematics Teaching in the Middle School. Dr. Billstein was recently awarded the George M. Dennison Presidential Faculty Award for Distinguished Accomplishment at the University of Montana.

Dr. Barbara Boschmans teaches in the Department of Mathematics and Statistics at Northern Arizona University. She received her BsEd (1995), MAT (1997), and EdD (2003) in Mathematics Education from Northern Arizona University. She has taught at Arizona State University (AZ), Plymouth State University (NH), and Northern Arizona University (AZ). Dr. Boschmans has taught a variety of mathematics and mathematics education courses. She has been a frequent speaker at local, state, national, and international conferences. She has been a board member of the New Hampshire Teachers of Mathematics and the Arizona Association of Teachers of Mathematics. Dr. Boschmans is interested in bringing a joy and appreciation of mathematics to preservice and inservice elementary teachers, and changing non-STEM students' fixed mindset to a growth mindset.

Shlomo Libeskind is a professor in the mathematics department at the University of Oregon in Eugene, Oregon, and has been responsible there for the mathematics teaching major since 1986. In addition to teaching and advising pre-service and in-service teachers, Dr. Libeskind has extensive writing experience (books, articles, and workshop materials) as well as in directing mathematics education projects. In teaching and in writing, Dr. Libeskind uses a heuristic approach to problem solving and proof; in this approach the reasonableness of each step in a solution or proof is emphasized along with a discussion on why one direction might be more promising than another. As part of his focus on the improvement of the teaching of mathematics, Dr. Libeskind is also involved at many levels locally, nationally and worldwide in the evaluation of mathematics teacher preparation programs. In his home state he is actively involved in schools and councils, as well as in reviewing materials for the state standards for college admission. Most recently (spring 2008) he visited teacher colleges in Israel as a Fulbright Fellow. During this visit he conducted observations and critiques of the preparation of mathematics teachers at several colleges in Northern Israel. Dr. Libeskind received his Bachelor's and Master's Degrees in Mathematics at the Technion (Israel Institute of Technology) and his PhD in Mathematics at the University of Wisconsin, Madison. 

Johnny W. Lott began his teaching career in the public schools of DeKalb County, Georgia, outside Atlanta. There he taught mathematics in grades 8-12. He also taught one year at the Westminster Schools, grades 9-12, and one year in the Pelican, Alaska, school, grades 6-12. Johnny is the co-author of several books and has written numerous articles and other essays in the "Arithmetic Teacher", "Teaching Children Mathematics", "The Mathematics Teacher", "School Science and Mathematics", "Student Math Notes", and "Mathematics Education Dialogues". He was the Project Manager for the "Figure This!" publications and website developed by the National Council of Teachers of Mathematics (NCTM) and was project co-director of the State Systemic Initiative for Montana Mathematics and Science (SIMMS) Project. He has served on many NCTM committees, has been a member of its Board of Directors, and was its president from April 2002-April 2004. Dr. Lott is Professor Emeritus from the Department of Mathematical Sciences at The University of Montana, having been a full professor. He is currently the Director of the Center for Excellence in Teaching and Learning, Professor of Mathematics, and Professor of Education at the University of Mississippi. Additionally, he is on the Steering Committee of the Park City Mathematics Institute, works with the International Seminar, the Designing and Delivering Professional Development Seminar, and is editor for its high school publications. His doctorate is in mathematics education from Georgia State University.

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