05665nam 2200685 a 450 991045180550332120200520144314.0981-4405-43-4(CKB)2550000000101859(EBL)919152(OCoLC)794328437(SSID)ssj0000739002(PQKBManifestationID)12368502(PQKBTitleCode)TC0000739002(PQKBWorkID)10672527(PQKB)10763491(MiAaPQ)EBC919152(WSP)00002723(Au-PeEL)EBL919152(CaPaEBR)ebr10563569(CaONFJC)MIL505503(EXLCZ)99255000000010185920120611d2012 uy 0engur|n|---|||||txtccrReasoning, communication and connections in mathematics[electronic resource] yearbook 2012 : Association of Mathematics Educators /editors, Berinderjeet Kaur, Toh Tin LamSingapore World Scientific Pub. Co.20121 online resource (335 p.)Description based upon print version of record.981-4405-41-8 Includes bibliographical references.Contents; Chapter 1 Reasoning, Communication and Connections in Mathematics: An Introduction Berinderjeet KAUR TOH Tin Lam; 1 Introduction; 2 Mathematical Tasks; 3 Classroom Discourse; 4 Connections Within and Beyond Mathematics; 4 Some Concluding Thoughts; References; Chapter 2 The Epistemic Framing of Mathematical Tasks in Secondary Three Mathematics Lessons in Singapore Ridzuan Abdul RAHIM David HOGAN Melvin CHAN; 1 Introduction; 2 Epistemic Framing 1: Knowledge Focus; 3 Epistemic Framing 2: Domain-Specific Knowledge Practices4 Tying the Epistemic Knot: Structural Equation Models of Knowledge Focus and Knowledge Practices5 Conclusion; Acknowledgement; References; Chapter 3 Modifying Textbook Exercises to Incorporate Reasoning and Communication into the Primary Mathematics Classroom Denisse R. THOMPSON; 1 Introduction; 2 Reasoning and Communication as Essential Mathematical Processes; 3 Strategies for Modifying Textbook Exercises; 3.1 Reframe a basic problem by including one or more conditions; 3.2 Use relationships to find patterns or predict other results; 3.3 Generate conjectures for students to investigate3.4 Encourage students to solve a problem in multiple ways3.5 Evaluate student solutions; 3.6 Write a question appropriate for a given answer; 3.7 Connect procedural and conceptual knowledge; 4 Conclusion; References; Chapter 4 Some "What" Strategies that Advance Reasoning and Communication in Primary Mathematics Classrooms Berinderjeet KAUR; 1 Mathematical Tasks; 2 "What..." Strategies; 2.1 What number makes sense?; 2.2 "What's wrong?"; 2.3 "What if?"; 2.4 "What's the question if you know the answer?"; 3 A Primary One Mathematics Lesson; 3.1 Objectives of the tasks3.2 How the tasks were enacted3.3 Teacher's self-evaluation of her lesson; 4 Conclusion; Acknowledgement; References; Chapter 5 Reasoning and Justification in the Secondary Mathematics Classroom Denisse R. THOMPSON; 1 Introduction; 2 Importance of the Textbook in Providing Opportunities for Reasoning; 3 Aspects of Reasoning to Incorporate into the Curriculum; 3.1 Finding counter examples; 3.2 Investigating conjectures; 3.3 Making conjectures; 3.4 Developing arguments; 3.5 Evaluating arguments; 3.6 Correcting mistakes in reasoning; 4 Including Reasoning in Assessment; 5 Conclusion; ReferencesChapter 6 LOGO Project-Based Mathematics Learning for Communication, Reasoning and Connection Hee-Chan LEW In-Ok JANG1 Introduction; 2 Characteristics of LOGO; 3 LOGO Project-Based Learning for the Elementary Students; 4 Some Results of the Pilot Lesson Study; 4.1 Planning and implementing strategies; Analogy; Generalization; Critical thinking; Progressive thinking; 4. 2 Debugging strategies; Visualization; Empirical inference; 5 Conclusion; References; Appendix A: Tasks Used in LOGO Project- Based Learning; Appendix B: One Final work of LOGO Project-Based Mathematics LearningChapter 7 Reasoning, Communication and Connections in A-Level Mathematics TOH Tin LamThis fourth volume in the series of yearbooks by the Association of Mathematics Educators in Singapore entitled Reasoning, Communication and Connections in Mathematics is unique in that it focuses on a single theme in mathematics education. The objective is to encourage teachers and researchers to advance reasoning, communication and connections in mathematics classrooms. Several renowned international researchers in the field have published their work in this volume. The fifteen chapters of the book illustrate evidence-based practices that school teachers and researchers can experiment with iMathematicsStudy and teachingReasoningStudy and teachingCommunicationStudy and teachingElectronic books.MathematicsStudy and teaching.ReasoningStudy and teaching.CommunicationStudy and teaching.382.01/5195510.07Kaur Berinderjeet1955-874790Toh Tin Lam874791Association of Mathematics Educators (Singapore)MiAaPQMiAaPQMiAaPQBOOK9910451805503321Reasoning, communication and connections in mathematics1953044UNINA