Early Algebra : Research into Its Nature, Its Learning, Its Teaching.

By: Kieran, CarolynContributor(s): Pang, JeongSuk | Schifter, Deborah | Ng, Swee FongMaterial type: TextTextSeries: ICME-13 Topical Surveys SeriesPublisher: Cham : Springer International Publishing AG, 2016Copyright date: �2016Edition: 1st edDescription: 1 online resource (48 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9783319322582Genre/Form: Electronic books.Additional physical formats: Print version:: Early AlgebraDDC classification: 372.7044 LOC classification: QA10.92-20Online resources: Click to View
Contents:
Intro -- Main Topics You Can Find in This ICME-13 Topical Survey -- Contents -- 1 Introduction -- 2 Survey of the State of the Art -- 2.1 Brief History of Early Algebra Movement and Its Research up to the Early 2000s -- 2.1.1 The Early Algebra Movement -- 2.1.2 The Development of Algebraic Thinking in the Early Grades: Some Examples -- 2.1.2.1 Generalizing Related to Patterning Activity -- 2.1.2.2 Generalizing Related to Properties of Operations and Numerical Structure -- 2.1.2.3 Representing Relationships Among Quantities -- 2.1.2.4 Introducing Alphanumeric Notation -- 2.1.3 Concluding Remarks: Early Algebra Research in Years Leading up to Early 2000s -- 2.2 Recent Research on Early Algebra Learning and Further Evolution of the Field -- 2.2.1 The Nature of Early Algebraic Thinking -- 2.2.2 Processes of Early Algebraic Thinking -- 2.2.3 Mathematical Content Areas of Early Algebraic Thinking -- 2.2.3.1 A Generalized Arithmetic Perspective on Content -- 2.2.3.2 A Functional Perspective on Content -- 2.2.4 Implications for Future Research -- 2.3 Bringing Early Algebra into Elementary Classrooms -- 2.3.1 The Nature of Early Algebraic Content in Classroom Contexts -- 2.3.2 Roles of Students and Teachers in Classrooms -- 2.3.3 What Can Happen in Classrooms in General? -- 2.3.4 Conclusion -- 2.4 A Neurocognitive Perspective on Early Algebra -- 2.4.1 Singapore Model Method to Solve Arithmetic and Algebra Problems -- 2.4.2 Different Methods Used to Solve Secondary Algebra Word Problems -- 2.4.3 Neuroimaging, the Model Method, and Algebra -- 2.4.4 Why Algebra May Be the More Resource Intensive of the Two Methods -- 2.4.4.1 The Transition to Letters as Unknowns Requires an Expansion of the Knowledge Related to the Use of Letters -- 2.4.4.2 Algebraic Expressions Are Legitimate Forms of Answers.
2.4.4.3 Algebraic Representations no Longer Adhere to the Same Set of Conventions Underpinning the Use of Numbers -- 2.4.4.4 Knowledge of Equality-Equivalence of Algebraic Expressions Is Crucial -- 2.4.5 Competent Adults and Children Process Arithmetic Information Differently -- 2.5 Concluding Remarks -- 3 Summary and Looking Ahead -- References -- Further Reading.
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Intro -- Main Topics You Can Find in This ICME-13 Topical Survey -- Contents -- 1 Introduction -- 2 Survey of the State of the Art -- 2.1 Brief History of Early Algebra Movement and Its Research up to the Early 2000s -- 2.1.1 The Early Algebra Movement -- 2.1.2 The Development of Algebraic Thinking in the Early Grades: Some Examples -- 2.1.2.1 Generalizing Related to Patterning Activity -- 2.1.2.2 Generalizing Related to Properties of Operations and Numerical Structure -- 2.1.2.3 Representing Relationships Among Quantities -- 2.1.2.4 Introducing Alphanumeric Notation -- 2.1.3 Concluding Remarks: Early Algebra Research in Years Leading up to Early 2000s -- 2.2 Recent Research on Early Algebra Learning and Further Evolution of the Field -- 2.2.1 The Nature of Early Algebraic Thinking -- 2.2.2 Processes of Early Algebraic Thinking -- 2.2.3 Mathematical Content Areas of Early Algebraic Thinking -- 2.2.3.1 A Generalized Arithmetic Perspective on Content -- 2.2.3.2 A Functional Perspective on Content -- 2.2.4 Implications for Future Research -- 2.3 Bringing Early Algebra into Elementary Classrooms -- 2.3.1 The Nature of Early Algebraic Content in Classroom Contexts -- 2.3.2 Roles of Students and Teachers in Classrooms -- 2.3.3 What Can Happen in Classrooms in General? -- 2.3.4 Conclusion -- 2.4 A Neurocognitive Perspective on Early Algebra -- 2.4.1 Singapore Model Method to Solve Arithmetic and Algebra Problems -- 2.4.2 Different Methods Used to Solve Secondary Algebra Word Problems -- 2.4.3 Neuroimaging, the Model Method, and Algebra -- 2.4.4 Why Algebra May Be the More Resource Intensive of the Two Methods -- 2.4.4.1 The Transition to Letters as Unknowns Requires an Expansion of the Knowledge Related to the Use of Letters -- 2.4.4.2 Algebraic Expressions Are Legitimate Forms of Answers.

2.4.4.3 Algebraic Representations no Longer Adhere to the Same Set of Conventions Underpinning the Use of Numbers -- 2.4.4.4 Knowledge of Equality-Equivalence of Algebraic Expressions Is Crucial -- 2.4.5 Competent Adults and Children Process Arithmetic Information Differently -- 2.5 Concluding Remarks -- 3 Summary and Looking Ahead -- References -- Further Reading.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2023. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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