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International Handbook of Mathematical Learning Difficulties = From the Laboratory to the Classroom /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	International Handbook of Mathematical Learning Difficulties/ edited by Annemarie Fritz, Vitor Geraldi Haase, Pekka Räsänen.
Reminder of title:	From the Laboratory to the Classroom /
other author:	Fritz, Annemarie.
Description:	XXIV, 843 p. 81 illus., 39 illus. in color.online resource. :
Contained By:	Springer Nature eBook
Subject:	Mathematics—Study and teaching . -
Online resource:	https://doi.org/10.1007/978-3-319-97148-3
ISBN:	9783319971483

International Handbook of Mathematical Learning Difficulties = From the Laboratory to the Classroom /
International Handbook of Mathematical Learning DifficultiesFrom the Laboratory to the Classroom /[electronic resource] :edited by Annemarie Fritz, Vitor Geraldi Haase, Pekka Räsänen. - 1st ed. 2019. - XXIV, 843 p. 81 illus., 39 illus. in color.online resource.

Part I. Development of number understanding: different theoretical perspectives -- Chapter 1. Neurocognitive perspective on numerical development -- Chapter 2. Everyday context and mathematics learning: on the role on spontaneous mathematical focusing tendencies in the development of numeracy -- Chapter 3. Competence Models as a Basis for Defining, Understanding, and Diagnosing Students’ Mathematical Competences -- Chapter 4. Mathematical performance amongst the poor: Comparative performance across developing countries -- Chapter 5. Didactics as source and remedy of mathematics learning difficulties -- Chapter 6. Development of number understanding: different theoretical perspectives -- Part II. Mathematics learning and its difficulties around the world -- Chapter 7. Special needs education in mathematics: The case of Nordic countries -- Chapter 8. Math learning and its difficulties in the Middle European countries -- Chapter 9. Mathematics learning and its difficulties in Eastern European countries -- Chapter 10. Maths Learning and its Difficulties in Southern European Countries -- Chapter 11. Mathematics Learning Difficulties in the United States: Current Issues in Screening and Intervention -- Chapter 12. Latin-American Countries -- Chapter 13. Mathematics Learning and its difficulties: the cases of Chile and Uruguay -- chapter 14. Mathematical inclusion in Southern Africa -- Chapter 15. Math Learning Difficulties in Australia -- Chapter 16. Mathematical learning and the difficulties in Taiwan: insights from educational practice -- Chapter 17. Maths Learning and its Difficulties in Israel -- Chapter 18. Learning Difficulties and Disabilities in Mathematics: Indian Scenario -- Chapter 19. Discussion of Section 2: Math learning difficulties around the world -- Part III. Mathematical learning difficulties and its cognitive, motivational and emotional underpinnings -- Chapter 20. Neurobiological origins of mathematical learning disabilities or dyscalculia: -- A review of brain imaging data -- chapter 21. Genetics of Dyscalculia 1: In search of genes -- Chapter 22. Genetics of dyscalculia 2: In search of endophenotypes -- Chapter 23. Comorbidity and differential diagnosis of dyscalculia and ADHD -- Chapter 24 -- Working memory and mathematical learning -- Chapter 25. The relation between spatial reasoning and mathematics achievement in children with mathematics learning difficulties -- Chapter 26. The language dimension of mathematical difficulties -- Chapter 27. Motivational and math anxiety perspective for mathematical learning and learning difficulties -- Chapter 28. Math & Emotions: The Case of Math Anxiety -- Chapter 29. Cognitive and Motivational Underpinnings of Mathematical Learning Difficulties: A Discussion -- Part IV.Understanding the basics: building conceptual knowledge and characterizing obstacles to the development of arithmetic skills -- Chapter 30. Counting and Basic Numerical Skills -- Chapter 31. Multi-digit Addition, Subtraction, Multiplication, and Division Strategies -- Chapter 32.Development of a sustainable place value understanding -- Chapter 33. Using Schema-Based Instruction to Improve Students’ Mathematical Word Problem Solving Performance -- Chapter 34. Geometry -- Chapter 35. Understanding Rational Numbers – Obstacles for Learners With and Without Mathematical Learning Difficulties -- Part V. Understanding Rational Numbers – Obstacles for Learners With and Without Mathematical Learning Difficulties -- Chapter 36. Assessing mathematical competence and performance: Quality characteristics, approaches, and research trends -- Chapter 37. Diagnostics of dyscalculia -- Chapter 38. Three Frameworks for Assessing Responsiveness to Instruction -- Chapter 39. Technology-based diagnostic assessments for identifying early learning difficulties in mathematics -- Chapter 40. Technology-based diagnostic assessments for identifying early learning difficulties in mathematics -- Chapter 41. Perspectives to technology-enhanced-learning and teaching in mathematical learning difficulties -- Chapter 42. Executive Function and Early Math Learning Difficulties -- Chapter 43 Children’s mathematical difficulties: some contributory factors and interventions -- Chapter 44. Beyond the "third method" for the assessment of developmental dyscalculia. Implications for research and practice -- Chapter 45. Challenges and future perspectives.

This comprehensive volume provides teachers, researchers and education professionals with cutting edge knowledge developed in the last decades by the educational, behavioural and neurosciences, integrating cognitive, developmental and socioeconomic approaches to deal with the problems children face in learning mathematics. The neurocognitive mechanisms and the cognitive processes underlying acquisition of arithmetic abilities and their significance for education have been the subject of intense research in the last few decades, but the most part of this research has been conducted in non-applied settings and there’s still a deep discrepancy between the level of scientific knowledge and its implementation into actual educational settings. Now it’s time to bring the results from the laboratory to the classroom. Apart from bringing the theoretical discussions to educational settings, the volume presents a wide range of methods for early detection of children with risks in mathematics learning and strategies to develop effective interventions based on innovative cognitive test instruments. It also provides insights to translate research knowledge into public policies in order to address socioeconomic issues. And it does so from an international perspective, dedicating a whole section to the cultural diversity of mathematics learning difficulties in different parts of the world. All of this makes the International Handbook of Mathematical Learning Difficulties an essential tool for those involved in the daily struggle to prepare the future generations to succeed in the global knowledge society.

ISBN: 9783319971483

Standard No.: 10.1007/978-3-319-97148-3doiSubjects--Topical Terms:

1253684
Mathematics—Study and teaching .

LC Class. No.: LC8-6691

Dewey Class. No.: 370

International Handbook of Mathematical Learning Difficulties = From the Laboratory to the Classroom /
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505 0 $a Part I. Development of number understanding: different theoretical perspectives -- Chapter 1. Neurocognitive perspective on numerical development -- Chapter 2. Everyday context and mathematics learning: on the role on spontaneous mathematical focusing tendencies in the development of numeracy -- Chapter 3. Competence Models as a Basis for Defining, Understanding, and Diagnosing Students’ Mathematical Competences -- Chapter 4. Mathematical performance amongst the poor: Comparative performance across developing countries -- Chapter 5. Didactics as source and remedy of mathematics learning difficulties -- Chapter 6. Development of number understanding: different theoretical perspectives -- Part II. Mathematics learning and its difficulties around the world -- Chapter 7. Special needs education in mathematics: The case of Nordic countries -- Chapter 8. Math learning and its difficulties in the Middle European countries -- Chapter 9. Mathematics learning and its difficulties in Eastern European countries -- Chapter 10. Maths Learning and its Difficulties in Southern European Countries -- Chapter 11. Mathematics Learning Difficulties in the United States: Current Issues in Screening and Intervention -- Chapter 12. Latin-American Countries -- Chapter 13. Mathematics Learning and its difficulties: the cases of Chile and Uruguay -- chapter 14. Mathematical inclusion in Southern Africa -- Chapter 15. Math Learning Difficulties in Australia -- Chapter 16. Mathematical learning and the difficulties in Taiwan: insights from educational practice -- Chapter 17. Maths Learning and its Difficulties in Israel -- Chapter 18. Learning Difficulties and Disabilities in Mathematics: Indian Scenario -- Chapter 19. Discussion of Section 2: Math learning difficulties around the world -- Part III. Mathematical learning difficulties and its cognitive, motivational and emotional underpinnings -- Chapter 20. Neurobiological origins of mathematical learning disabilities or dyscalculia: -- A review of brain imaging data -- chapter 21. Genetics of Dyscalculia 1: In search of genes -- Chapter 22. Genetics of dyscalculia 2: In search of endophenotypes -- Chapter 23. Comorbidity and differential diagnosis of dyscalculia and ADHD -- Chapter 24 -- Working memory and mathematical learning -- Chapter 25. The relation between spatial reasoning and mathematics achievement in children with mathematics learning difficulties -- Chapter 26. The language dimension of mathematical difficulties -- Chapter 27. Motivational and math anxiety perspective for mathematical learning and learning difficulties -- Chapter 28. Math & Emotions: The Case of Math Anxiety -- Chapter 29. Cognitive and Motivational Underpinnings of Mathematical Learning Difficulties: A Discussion -- Part IV.Understanding the basics: building conceptual knowledge and characterizing obstacles to the development of arithmetic skills -- Chapter 30. Counting and Basic Numerical Skills -- Chapter 31. Multi-digit Addition, Subtraction, Multiplication, and Division Strategies -- Chapter 32.Development of a sustainable place value understanding -- Chapter 33. Using Schema-Based Instruction to Improve Students’ Mathematical Word Problem Solving Performance -- Chapter 34. Geometry -- Chapter 35. Understanding Rational Numbers – Obstacles for Learners With and Without Mathematical Learning Difficulties -- Part V. Understanding Rational Numbers – Obstacles for Learners With and Without Mathematical Learning Difficulties -- Chapter 36. Assessing mathematical competence and performance: Quality characteristics, approaches, and research trends -- Chapter 37. Diagnostics of dyscalculia -- Chapter 38. Three Frameworks for Assessing Responsiveness to Instruction -- Chapter 39. Technology-based diagnostic assessments for identifying early learning difficulties in mathematics -- Chapter 40. Technology-based diagnostic assessments for identifying early learning difficulties in mathematics -- Chapter 41. Perspectives to technology-enhanced-learning and teaching in mathematical learning difficulties -- Chapter 42. Executive Function and Early Math Learning Difficulties -- Chapter 43 Children’s mathematical difficulties: some contributory factors and interventions -- Chapter 44. Beyond the "third method" for the assessment of developmental dyscalculia. Implications for research and practice -- Chapter 45. Challenges and future perspectives.
520 $a This comprehensive volume provides teachers, researchers and education professionals with cutting edge knowledge developed in the last decades by the educational, behavioural and neurosciences, integrating cognitive, developmental and socioeconomic approaches to deal with the problems children face in learning mathematics. The neurocognitive mechanisms and the cognitive processes underlying acquisition of arithmetic abilities and their significance for education have been the subject of intense research in the last few decades, but the most part of this research has been conducted in non-applied settings and there’s still a deep discrepancy between the level of scientific knowledge and its implementation into actual educational settings. Now it’s time to bring the results from the laboratory to the classroom. Apart from bringing the theoretical discussions to educational settings, the volume presents a wide range of methods for early detection of children with risks in mathematics learning and strategies to develop effective interventions based on innovative cognitive test instruments. It also provides insights to translate research knowledge into public policies in order to address socioeconomic issues. And it does so from an international perspective, dedicating a whole section to the cultural diversity of mathematics learning difficulties in different parts of the world. All of this makes the International Handbook of Mathematical Learning Difficulties an essential tool for those involved in the daily struggle to prepare the future generations to succeed in the global knowledge society.
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