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  • MPI Ethno. Forsch.  (30)
  • 2010-2014  (30)
  • 1970-1974
  • 1940-1944
  • Education  (30)
  • Mathematics  (30)
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  • MPI Ethno. Forsch.  (30)
  • BSZ  (17)
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  • 1
    Online Resource
    Online Resource
    Encyclopedia of Mathematics Education (2014)
    Dordrecht [u.a.] : Springer
    Details
    ISBN: 9789400749788 , 9789400749771 , 9400749775 , 9789400749795
    Language: English
    Pages: Online-Ressource (XXII, 672 p. 67 illus., 36 illus. in color. eReference, online resource)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Encyclopedia of mathematics education
    RVK:
    SM 600
    RVK:
    SM 607
    Keywords: Curriculum planning ; Mathematics—Study and teaching . ; Education—Curricula. ; Curriculum planning ; Education ; Mathematics ; Mathematics ; Education ; International education . ; Comparative education. ; Wörterbuch ; Mathematikunterricht ; Mathematikunterricht
    Abstract: Ability Grouping in Mathematics Classrooms -- Abstraction in Mathematics Education -- Actions, Processes, Projects, Schema (APOS) in Mathematics Education -- Activity Theory in Mathematics Education -- Adults Learning Mathematics -- Affect in Mathematics Education -- Algebra Teaching and Learning -- Algorithmics -- Algorithms -- Anthropological Approaches in Mathematics Education, French Perspective -- Argumentation in Mathematics -- Argumentation in Mathematics Education -- Assessment Frameworks in Mathematics Education -- Assessment of Mathematics Teacher Knowledge -- Authority in Mathematics Education -- Autism, Special Needs and Mathematics Learning -- Behaviorism in Mathematics Education -- Bilingual and Multilingual Issues in Mathematics Education -- Blind Children, Special Needs and Mathematics Learning -- Bloom's Taxonomy in Mathematics Education -- Calculus Teaching and Learning -- Cognitive Acceleration in Mathematics Education -- Collaborative Learning in Mathematics Education -- Communities of Inquiry in Mathematics Teacher Education -- Communities of Practice in Mathematics Education -- Communities of Practice in Mathematics Teacher Education -- Competency Frameworks in Mathematics Education -- Complexity in Mathematics Education -- Concept Development in Mathematics Education -- Concept Maps in Mathematics Education -- Constructivism and Radical Constructivism in Mathematics Education -- Constructivist Teaching Experiment Creativity in Mathematics Education -- Critical Mathematics -- Critical Thinking in Mathematics Education -- Cultural Anthropological Approaches in Mathematics Education -- Cultural Diversity in Mathematics Education -- Cultural influences in Mathematics Education -- Cultural Traditions of Mathematics Teaching -- Curricular Resources and Textbooks -- Data Handling and Statistics Teaching and Learning -- Deaf Children, Special Needs and Mathematics Learning -- Deductive Reasoning in Mathematics Education -- Design research in mathematics education -- Dialogic teaching and learning in mathematics education -- Didactic Contract in Mathematics Education -- Didactic engineering in mathematics education -- Didactic Situations in Mathematics Education -- Didactic Transposition in Mathematics Education -- Didactical Phenomenology (Freudenthal) -- Discourse Analytic Approaches in Mathematics Education -- Discrete Mathematics Teaching and Learning -- Discursive Approaches to Learning Mathematics -- Down Syndrome, Special Needs and Mathematics Learning -- Dyscalculia -- Early Algebra Teaching and Learning -- Early Childhood Mathematics Education -- Education of Mathematics Teacher Educators -- Elkonin and Davydov Curriculum in Mathematics Education -- Embodied Cognition -- Enactivist Theories -- Epistemological Obstacles in Mathematics Education -- Equity and Access in Mathematics Education -- Ethnicity and Race in Mathematics Education -- Ethno-mathematics -- External Assessment in Mathematics Education -- Fieldwork/ practicum in mathematics education -- Frameworks for Conceptualizing Mathematics Teacher Knowledge -- Gender in Mathematics Education -- Giftedness and high ability in mathematics -- Goals of Mathematics Education -- Heuristics in Mathematics Education -- Historical Overview of Mathematics Teaching Materials -- History of Mathematics and Education -- History of Mathematics Teaching and Learning -- History of Research in Mathematics Education -- Hypothetical Learning Trajectories in Mathematics Education -- Immigrant Students in Mathematics Education -- Immigrant Teachers in Mathematics Education -- Inclusive Mathematics Classrooms -- Indigenous Students in Mathematics Education -- Informal Learning in Mathematics Education -- Information and Communication Technology (ICT) Affordances in Mathematics Education -- Inquiry Based Mathematics Education -- Instrumental and Relational Understanding in Mathematics Education -- Instrumentation in Mathematics Education -- Interactionist and Ethnomethodological Approaches in Mathematics Education -- Interdisciplinary approaches in mathematics education -- International Comparative Studies in Mathematics: An Overview -- Intuition in Mathematics Education -- Language Background in Mathematics Education -- Language Disorders, Special Needs and Mathematics Learning -- Learner Centred Teaching in Mathematics Education -- Learning Difficulties, Special Needs and Mathematics Learning -- Learning Environments in Mathematics Education -- Learning Practices in Digital Environments -- Learning Study in Mathematics Education -- Lesson Study in Mathematics Education -- Logic in Mathematics Education -- Manipulatives in Mathematics Education -- Mathematical Ability -- Mathematical Approaches -- Mathematical Functions Teaching and Learning -- Mathematical Games in Learning and Teaching -- Mathematical Knowledge for Teaching -- Mathematical Language -- Mathematical Literacy -- Mathematical Modeling and Applications in Education -- Mathematical Proof, Argumentation and Reasoning -- Mathematical Representations -- Mathematics Classroom Assessment -- Mathematics Curriculum Evaluation -- Mathematics Teacher as Learner -- Mathematics Teacher Education Organization, Curriculum and Outcomes -- Mathematics Teacher Educator as Learner -- Mathematics Teacher Identity -- Mathematics Teacher Roles -- Mathematics Teachers and Curricula -- Mathematisation as Social Process -- Metacognition in Mathematics Education -- Metaphors in Mathematics Education -- Misconceptions and Alternative Conceptions in Mathematics Education -- Models of In-service Mathematics Teacher Education Professional Development -- Models of Preservice Mathematics Teacher Education -- Motivation in Mathematics Learning -- Multiple Representations in Mathematics Education -- Neuroscience and Mathematics Education -- Noticing of Mathematics Teachers -- Number Lines in Mathematics Education -- Number Teaching and Learning -- Pedagogical Content Knowledge in Mathematics Education -- Philosophy, Mathematics, and Education -- Policy Debates in Mathematics Education -- Political Perspectives in Mathematics Education -- Poststructuralist and Psychoanalytic Approaches in Mathematics Education -- Probability Teaching and Learning -- Problem Solving in Mathematics Education -- Professional Learning Communities in Mathematics Education -- Psychological Approaches in Mathematics Education -- Quasi-empirical Reasoning (Lakatos) -- Questioning in Mathematics Education -- Realistic Mathematics Education -- Recontextualisation in Mathematics Education -- Reflective Practitioner in Mathematics Education -- Rural and Remote Mathematics Education -- Scaffolding in Mathematics Education -- Semiotics in Mathematics Education -- Shape and Spaceometry Teaching and Learning -- Single Sex Mathematics Classrooms -- Situated Cognition in Mathematics Education -- Socio-economic Class in Mathematics Education -- Socio-mathematical Norms in Mathematics Education -- Sociological Approaches in Mathematics Education -- Stoffdidaktik in Mathematics Education -- Structure of the Observed Learning Outcome (SOLO) Model -- Student Attitudes in Mathematics Education -- Task-based Interviews in Mathematics Education -- Teacher as Researcher in Mathematics Education -- Teacher Beliefs, Attitudes and Self-Efficacy in Mathematics Education -- Teacher Centred Teaching in Mathematics Education -- Teacher Education Development Study - Mathematics (TEDS-M) -- Teacher Supply and Retention in Mathematics Education -- Teaching Practices in Digital Environments -- Technology and Curricula in Mathematics Education -- Technology Design in Mathematics Education -- The van Hiele theory -- Theories of Learning Mathematics -- Types of Technology in Mathematics Education -- Urban Mathematics Education -- Values in Mathematics Education -- Visualisation and Learning in Mathematics Education -- Wait Time in Mathematics Teaching -- Word Problems in Mathematics Education -- Zone of Proximal Development in Mathematics Education. .
    Abstract: The Encyclopedia of Mathematics Education is a comprehensive reference text, covering every topic in the field with entries ranging from short descriptions to much longer pieces where the topic warrants more elaboration. The entries provide access to theories and to research in the area and refer to the leading publications for further reading. Links will also be made to particular texts in Springer journals and e-books through SpringerReference.com. The Encyclopedia is aimed at graduate students, researchers, curriculum developers, policy makers, and others with interests in the field of mathematics education. It is planned to be 700 pages in length in its hard copy form but the text will subsequently be up-dated and developed on-line in a way that retains the integrity of the ideas, the responsibility for which will be in the hands of the Editor-in-Chief and the Editorial Board. Wish to become an author? Springer's Encyclopedia of Mathematics Education's first edition was published in 2014. The Encyclopedia is a "living" project and will continue to accept articles online as part of an eventual second edition. Articles will be peer-reviewed in a timely manner and, if found acceptable, will be immediately published online. Suggested articles are, of course, welcome. Feel encouraged to think about additional topics that we overlooked the first time around, and to suggest colleagues (including yourself!) who will want to write them. Interested new authors should contact the editor in chief, Stephen Lerman, at lermanslsbu.ac.uk, for more specific instructions and/or visit https://meteor.springer.com/mathed. Editorial Board: Michele Artigue Ruhama Even Melony Graven Eva Jablonka Robyn Jorgensen Yoshinori Shimizu Bharath Sriraman.
    DOI: 10.1007/978-94-007-4978-8
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  • 2
    Online Resource
    Online Resource
    Research Trends in Mathematics Teacher Education (2014)
    Cham : Springer International Publishing
    Details
    ISBN: 9783319025629
    Language: English
    Pages: Online-Ressource (XIV, 320 p. 31 illus., 13 illus. in color, online resource)
    Series Statement: Research in Mathematics Education
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Research trends in mathematics teacher education
    RVK:
    SM 620
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Aufsatzsammlung ; Mathematiklehrer ; Ausbildung ; Forschung
    Abstract: Research Trends in Mathematics Teacher Education Jane-Jane Lo, Keith R. Leatham, and Laura R. Van Zoest, editors Research on the preparation and continued development of mathematics teachers is becoming an increasingly important subset of mathematics education research. Such research explores the attributes, knowledge, skills and beliefs of mathematics teachers as well as methods for assessing and developing these critical aspects of teachers and influences on teaching. Research Trends in Mathematics Teacher Education focuses on three major themes in current mathematics teacher education research: mathematical knowledge for teaching, teacher beliefs and identities, and tools and techniques to support teacher learning. Through careful reports of individual research studies and cross-study syntheses of the state of research in these areas, the book provides insights into teachers’ learning processes and how these processes can be harnessed to develop effective teachers. Chapters investigate bedrock skills needed for working with primary and secondary learners (writing relevant problems, planning lessons, being attentive to student learning) and illustrate how knowledge can be accessed, assessed, and nurtured over the course of a teaching career. Commentaries provide context for current research while identifying areas deserving future study. Included among the topics: Teachers’ curricular knowledge Teachers’ personal and classroom mathematics Teachers’ learning journeys toward reasoning and sense-making Teachers’ transitions in noticing Teachers’ uses of a learning trajectory as a tool for mathematics lesson planning A unique and timely set of perspectives on the professional development of mathematics teachers at all stages of their careers, Research Trends in Mathematics Teacher Education brings clarity and practical advice to researchers as well as practitioners in this increasingly critical arena
    Description / Table of Contents: ForewordPreface -- Contributors -- I. Mathematical Knowledge for Teaching in Teacher Education -- Understanding Preservice Teachers' Curricular Knowledge -- Mathematical Knowledge for Teaching and its Specificity to High School Geometry Instruction -- Using Coordination Classes to Analyze Preservice Middle-Grades Teachers' Difficulties in Determining Direct Proportion Relationships -- A Processes Lens on a Beginning Teacher's Personal and Classroom Mathematics -- Commentary on Section 1: Mounting Progress on Understanding Mathematics Teacher Content Knowledge -- II. Beliefs and Identities in Mathematics Teacher Education -- Photo-Elicitation/Photovoice Interviews to Study Mathematics Teacher Identity -- Teachers, Attributions, and Students' Mathematical Work -- Teacher Identity and Tensions of Teaching Mathematics in High-Stakes Accountability Contexts -- Teachers' Learning Journeys Toward Reasoning and Sense Making -- Commentary on Section 2: Attending to Teachers in Mathematics Teacher Education Research -- III. Tools and Techniques for Supporting Teacher Learning -- Preservice Elementary Mathematics Teachers' Emerging Ability to Write Problems to Build on Children's Mathematics -- Examining the Relationship Between Preservice Elementary Teachers' Attitutudes Toward Mathematics and Professional Noticing Capacities -- Transitions in Prospective Mathematics Teacher Noticing -- Teachers' Uses of a Learning Trajectory as a Tool for Mathematics Lesson Planning -- Commentary on Section 3: Research on Teachers' Focusing on Children's Thinking: Teacher Noticing and Learning Trajectories -- Overall Commentary: Understanding and Changing Teachers -- Author Index -- Subject Index.
    Note: Description based upon print version of record
    DOI: 10.1007/978-3-319-02562-9
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  • 3
    Online Resource
    Online Resource
    APOS theory : a framework for research and curriculum development in mathematics education (2014)
    New York : Springer
    Details
    ISBN: 9781461479666
    Language: English
    Pages: 1 Online-Ressource (xi, 254 Seiten) , Illustrationen, Diagramme
    RVK:
    SM 601
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Curriculum planning ; Mathematics Study and teaching
    Abstract: Although APOS Theory has been used extensively in numerous scholarly publications, in the design of textbooks, and in teaching practice, there is no single reference that contains all the relevant information about its components, and provides guidance about its application. The goal of this book is to present the main elements of APOS Theory and its use. The book is intended to be useful for Mathematics Education researchers, graduate students in Mathematics Education, and Mathematics instructors who work with, or would like to learn more about, this theoretical approach, and who are interested in how, according to this theory, individuals construct their understanding of mathematical concepts
    Description / Table of Contents: Chapter 1 IntroductionChapter 2 From Piaget’s Theory to APOS Theory: Reflective Abstraction in Learning Mathematics and the Historical Development of APOS Theory -- Chapter 3 Mental Structures and Mechanisms: APOS Theory and the Construction of Mathematical Knowledge -- Chapter 4 Genetic Decomposition -- Chapter 5 The Teaching of Mathematics Using APOS Theory -- Chapter 6 The APOS Paradigm for Research and Curriculum Development -- Chapter 7 Schemas, Their Development and Interaction -- Chapter 8 Totality as a Possible New Stage and Levels in APOS Theory -- Chapter 9 Use of APOS Theory to Teach Mathematics at Elementary School -- Chapter 10 Frequently Asked Questions -- Chapter 11 Conclusions -- Chapter 12 Annotated Bibliography -- References -- Index.
    Note: Literaturverz. S. 197 - 232 , Description based upon print version of record
    DOI: 10.1007/978-1-4614-7966-6
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  • 4
    Online Resource
    Online Resource
    Teaching Fractions through Situations: A Fundamental Experiment (2014)
    Dordrecht : Springer Netherlands
    Details
    ISBN: 9789400727151
    Language: English
    Pages: Online-Ressource (XIII, 215 p. 103 illus, online resource)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Brousseau, Guy Teaching Fractions through Situations: A Fundamental Experiment
    RVK:
    SM 611
    Keywords: Mathematics ; Education ; Education ; Mathematics
    Abstract: This work presents one of the original and fundamental experiments of Didactique, a research program whose underlying tenet is that Mathematics Education research should be solidly based on scientific observation. Here the observations are of a series of adventures that were astonishing for both the students and the teachers: the reinvention of fractions and of decimal numbers in a sequence of lessons and situations that permitted the students to construct the concepts for themselves. The book leads the reader through the highlights of the sequence's structure and some of the reasoning behind the lesson choices. It then presents explanations of some of the principal concepts of the Theory of Situations. In the process, it offers the reader the opportunity to join a lively set of fifth graders as they experience a particularly attractive set of lessons and master a topic that baffles many of their contemporaries
    Description / Table of Contents: 1. The Adventure of the Students2. Viewing the Adventure from the Perspective of Teachers and Researchers -- 3. Some Key Concepts and Terms from the Theory of Situations -- 4. The Setting for the Adventure -- 5. Description of the Center for Observation for Research in Mathematics Education -- 6. Conclusions and future directions.
    Note: Description based upon print version of record
    DOI: 10.1007/978-94-007-2715-1
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  • 5
    Online Resource
    Online Resource
    Transformation - A Fundamental Idea of Mathematics Education (2014)
    New York, NY : Springer New York
    Details
    ISBN: 9781461434894
    Language: English
    Pages: Online-Ressource (XXII, 409 p. 112 illus., 30 illus. in color, online resource)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Rezat, Sebastian Transformation - A Fundamental Idea of Mathematics Education
    RVK:
    SM 600
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Education Philosophy ; Mathematikunterricht ; Didaktik ; Mathematik
    Abstract: This book opens up a discussion on fundamental ideas of mathematics education as a means to focus on the overarching core issues and to reflect upon the identity of the scientific discipline. The concept of transformation is introduced as one fundamental idea in the discipline and examined from different perspectives. Transformations are related to knowledge, to signs and representations of mathematics, to concepts and ideas central to teaching and learning mathematics, and to instruments for the learning of mathematics. With an international pool of authors, this book seeks to answer the following questions: What do we know about transformations in the different domains? What kinds of transformations are crucial? How is transformation in each case conceptualized? The book is meant for researchers, teacher educators and curriculum designers in the field of Mathematics Education. It is destined to occupy an important place in current literature on the topic of transformation as a way of uncovering and explaining mathematical practice and the very essence of mathematics as well as a way of creating and maintaining semantic networks between different content areas.
    Description / Table of Contents: Introduction to Part IHow 18th Century Mathematics was Transformed into 19th Century School Curricula -- A Framework for Examining the Transformation of Mathematics and Mathematics Learning in the Transition from School to University: An Analysis of German Textbooks from Upper Secondary School and the First Semester -- Knowledge Transformation between Secondary School and University Mathematics -- Student Transition to University Mathematics Education: Transformations of People, Tools and Practices -- Overcoming the Gap between University and School Mathematics: The Impact of an Innovative Programme in Mathematics Teacher Education at the Justus-Liebig-University in Giessen -- Mathematical Moments in a Human Life: Narratives on Transformation -- Transitions in Learning Mathematics as a Challenge for People and Institutions -- Introduction to Part II -- Constructing Knowledge by Transformation: Diagrammatic Reasoning in Practice -- Transforming Images in a DGS: The Semiotic Potential of the Dragging Tool for Introducing the Notion of Conditional Statement -- Dynamic Representations of Complex Numbers: Opportunities to Learn in Teacher Training -- Dynamic and Tangible Representations in Mathematics Education -- The Role of Social Aspects of Teaching and Learning in Transforming Mathematical Activity: Tools, Tasks, Individuals and Learning Communities -- Designing a Simulator in Building Trades to Transform Vocational Education -- Discussion I from an Epistemological Point of View: Representing and Meaning-making: The Transformation of Transformation -- Discussion II from a Technological Point of View: Digital Technologies and Transformation in Mathematics Education -- Introduction to Part III -- From Proof Image to Formal Proof - a Transformation -- Elementary Stochastic Seeing in Primary Mathematics Classrooms - Epistemological Foundation and Empirical Evaluation of a Theoretical Construct -- Understanding Geometric Work through its Development and its Transformations -- Small Steps to Promote “Mathematical Literacy” -- Transformation as a Fundamental Concept in Arithmetical Competence Modelling: An Example of Informatical Educational Science -- Fundamental Ideas of Didactics - Reactions to the Suggested Meta-Theoretical Construct for Reflecting and Connecting Theories -- Epilogue.
    Note: Description based upon print version of record
    DOI: 10.1007/978-1-4614-3489-4
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  • 6
    Online Resource
    Online Resource
    Early Mathematics Learning : Selected Papers of the POEM 2012 Conference (2014)
    New York, NY : Springer New York
    Details
    ISBN: 9781461446781
    Language: English
    Pages: Online-Ressource (XI, 326 p. 60 illus., 30 illus. in color, online resource)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Early mathematics learning
    RVK:
    SK 110
    Keywords: Mathematics ; Early childhood education ; Education ; Education ; Mathematics ; Early childhood education ; Mathematics ; Study and teaching (Early childhood) ; Congresses ; Konferenzschrift ; Mathematikunterricht ; Kleinkindpädagogik ; Kindergarten
    Abstract: ?This book will gather current research in early childhood mathematics education. A special focus will be the tension between instruction and construction of knowledge. The book includes research on the design of learning opportunities, the development of mathematical thinking, the impact of the social setting and the professionalization of nursery teachers.
    Abstract: This book will gather current research in early childhood mathematics education. A special focus will be the tension between instruction and construction of knowledge. The book includes research on the design of learning opportunities, the development of mathematical thinking, the impact of the social setting and the professionalization of nursery teachers
    Description / Table of Contents: Instruction and Construction: Integrating Both Processes to Promote Quality Early Mathematics EducationA Dance of instruction with construction in mathematics education.- The Roots of Mathematising in Young Children.- The first Discernment into the NMT-Family.- Developing Critical Thinking Skill in Mathematics Education.- Identifying quantities of representations - Children using structures to compose collections from parts or decompose collections into parts.- What kind of challenges do teacher students encounter with respect to kindergarten mathematics? -- A pilot Study of Exam Papers.- Reconstruction of folk pedagogy in interaction processes.- Children’s engagement with mathematics in kindergarten mediated by the use of digital tools.- Professionalization of Early Childhood Educators with a Focus on Natural Learning Situations and Individual Development of Mathematical Competencies.- Reconstruction of conjunctive realms of experiences in early learning processes -- The Interplay Between Gesture and Speech - Second Graders Solve Mathematical Problems.- Nice text by problem posing - two samples with many challenges.- The Relationship between cultural Expectation and the local Realization of a Mathematics learning Environment -- Early maths with multi-touch - an activity-theoretic approach -- How one preschool teacher recognises mathematical teaching moments -- Development of Geometric Competencies - Children's Conception of Geometric Shapes in England and Germany.- The elements of mathematical creativity and the function of the attachment style in early childhood -- Early enhancement of kindergarten children potentially at risk in learning school mathematics.- It is quite confusing isn’t it? -- Preschool children's performance and self-efficacy on mathematical and non-mathematical tasks -- Preschool teachers' knowledge and self-efficacy regarding counting and enumerating tasks -- Conceptualizing preschool teachers' knowledge and self-efficacy for teaching mathematics: The CAMTE framework -- Mathematical Situations Of Play And Explorations As An Empirical Research Instrument -- Play-based mathematics in kindergarten.
    Note: Description based upon print version of record
    DOI: 10.1007/978-1-4614-4678-1
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  • 7
    Online Resource
    Online Resource
    Prospective Mathematics Teachers’ Knowledge of Algebra : A Comparative Study in China and the United States of America (2014)
    Wiesbaden : Springer Fachmedien Wiesbaden
    Details
    ISBN: 9783658036720
    Language: English
    Pages: Online-Ressource (XXI, 179 p. 23 illus, online resource)
    Series Statement: Perspektiven der Mathematikdidaktik
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Huang, Rongjin Prospective mathematics teachers’ knowledge of algebra
    RVK:
    SM 607
    RVK:
    SM 617
    Keywords: Mathematics ; Education ; Education ; Mathematics ; USA ; China ; Mathematiklehrer ; Algebra ; Fachwissen
    Abstract: Rongjin Huang examines teachers’ knowledge of algebra for teaching, with a particular focus on teaching the concept of function and quadratic relations in China and the United States. 376 Chinese and 115 U.S.A. prospective middle and high school mathematics teachers participated in this survey. Based on an extensive quantitative and qualitative data analysis the author comes to the following conclusions: The Chinese participants demonstrate a stronger knowledge of algebra for teaching and their structure of knowledge of algebra for teaching is much more interconnected. They show flexibility in choosing appropriate perspectives of the function concept and in selecting multiple representations. Finally, the number of college mathematics and mathematics education courses taken impacts the teachers’ knowledge of algebra for teaching. Contents · Knowledge Needed for Teaching · Mathematics Teacher Education in China and the U.S.A. · Instrumentation, Data Collection, and Data Analysis · Comparison of Knowledge of Algebra for Teaching (KAT) between China and the U.S.A. · Relationship among Different Components of KAT · Comparison of KTCF between China and the U.S.A. Target Groups · Researchers, academics, and scholars of mathematics and didactics · Teachers The Author Dr. Rongjin Huang works as an associate Professor at the Middle Tennessee State University, U.S.A
    Description / Table of Contents: Foreword; Acknowledgments; Table of Contents; Figures; Tables; Nomenclature; 1 Chapter One: Introduction; 1.1 Background; 1.2 Statement of Purpose; 1.3 Research Questions; 1.4 Delimitations; 2 Chapter Two: Literature Review; 2.1 Knowledge Needed for Teaching; 2.2 Mathematics Knowledge for Teaching; 2.3 Teachers' Knowledge of Algebra for Teaching; 2.4 Mathematics Knowledge for Teaching Some Key Concepts in Algebra; 2.4.1 Teaching and Learning of the Concept of Function; 2.4.2 Teaching and Learning of Expressions and Equations Expressions.
    Description / Table of Contents: 2.4.3 Two Perspectives about the Concept of Function: A Case Study of Quadratic Function2.4.4 Flexibility in Learning the Concept of Function: A Case Study of Quadratic Function.; 2.5 Mathematics Teacher Education Systems in China and the U.S.; 2.5.1 Mathematics Teacher Education in China; 2.5.2 Mathematics Teacher Education in the U.S.; 2.6 Comparative Studies on Teachers' Knowledge for Teaching between China and the U.S.; 2.7 Conclusion; 3 Chapter Three: Methodology; 3.1 Instrumentation; 3.1.1 Content Appropriateness; 3.1.2 Translation Equivalence
    Description / Table of Contents: 3.1.3 Appropriateness of the Survey from Teachers' Perspectives3.1.4 Measuring Knowledge for Teaching the Concept of Function; 3.2 Data Collection; 3.2.1 Chinese Data Collection; 3.2.2 U.S. Data Collection; 3.2.3 Interview of the Selected U.S. Participants; 3.3 Data Analysis; 3.3.1 Quantifying the Data; 3.3.2 Inter-Rater Reliability; 3.3.3 Developing Categories of Different Strategies of Solving OpenendedItems; 3.3.4 Quantitative Analysis; 3.3.5 Interview Data Analysis; 3.4 Framework for Data Analysis; 3.5 Conclusion; 4 Chapter Four: Results; 4.1 Comparison of KAT between China and the U.S.
    Description / Table of Contents: 4.1.1 Reliability of the Instrument4.1.2 The Mean Differences of Items and Components between China and the U.S.; 4.1.3 Analysis of Selected Multiple Choice Items; 4.2 Relationship among Components of KAT in China and the U.S.; 4.2.1 Path Model Analysis; 4.3 Comparisons of KTCF between China and the U.S.; 4.3.1 Logical Reasoning in Matrix System; 4.3.2 Flexibility in Adopting Perspectives of Function Concept; 4.3.3 Flexibility in Using and Shifting Different Representations; 4.4 An Analysis of Correlation between Flexibility and Other Variables; 4.5 Summary of the Findings
    Description / Table of Contents: 4.5.1 The Differences and Similarities of KAT in Chinese and U.S. Prospective Teachers4.5.2 The Relationship between Different Components of KAT; 4.5.3 Difference and Similarities of Knowledge for Teaching the Concept of functions; 4.5.4 The Relationship between KAT and Courses Taken; 5 Chapter Five: Conclusion and Discussion; 5.1 Conclusion; 5.1.1 Knowledge of Algebra for Teaching in China and the U.S.; 5.1.2 The Relationship between Different Components of KAT; 5.1.3 The Difference and Similarities of Knowledge for Teaching the Concept of Functions
    Description / Table of Contents: 5.1.4 The Relationship between Prospective Teachers' KAT and Their Course Taking
    Note: Description based upon print version of record
    DOI: 10.1007/978-3-658-03672-0
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  • 8
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    Online Resource
    Art for art's sake? : the impact of arts education (2013)
    Paris : OECD
    Details
    ISBN: 9789264180772
    Language: English
    Pages: 266 S.
    Edition: Online-Ausg. Online-Ressource
    Series Statement: Educational research and innovation
    Parallel Title: Parallelausg. L'art pour l'art ? ; L'impact de l'éducation artistique
    Parallel Title: Parallelausg. ¿El arte por el arte? ; La influencia de la educacíon artística
    Parallel Title: Erscheint auch als Winner, Ellen, 1947 - Art for art's sake?
    RVK:
    DP 6600
    RVK:
    CX 3000
    RVK:
    DG 9000
    RVK:
    DI 1000
    RVK:
    DP 6100
    RVK:
    ES 360
    RVK:
    ES 740
    RVK:
    LH 61100
    RVK:
    LH 61260
    RVK:
    LR 56900
    RVK:
    SM 607
    RVK:
    LH 61200
    Keywords: Kunst ; Bildung ; Education ; Kunsterziehung ; Kreativität ; Kognitive Entwicklung ; Sozialkompetenz ; Ästhetische Erziehung ; Musische Erziehung
    Abstract: Arts education is often said to be a means of developing critical and creative thinking. Arts education has also been argued to enhance performance in non-arts academic subjects such as mathematics, science, reading and writing, and to strengthen students’ academic motivation, self-confidence, and ability to communicate and co-operate effectively. Arts education thus seems to have a positive impact on the three subsets of skills that we define as “skills for innovation”: subject-based skills, including in non-arts subjects; skills in thinking and creativity; and behavioural and social skills. This report examines the state of empirical knowledge about the impact of arts education on these kinds of outcomes. The kinds of arts education examined include arts classes in school (classes in music, visual arts, theatre, and dance), arts-integrated classes (where the arts are taught as a support for an academic subject), and arts study undertaken outside of school (e.g. private music lessons; out-of-school classes in theatre, visual arts, and dance). The report does not deal with education about the arts or cultural education, which may be included in all kinds of subjects.
    DOI: 10.1787/9789264180789-en
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  • 9
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    Online Resource
    Modeling Students' Mathematical Modeling Competencies : ICTMA 13 (2013)
    Dordrecht : Springer Netherlands
    Details
    ISBN: 9789400762718
    Language: English
    Pages: Online-Ressource (XIV, 651 p. 134 illus, digital)
    Series Statement: International Perspectives on the Teaching and Learning of Mathematical Modelling
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T.
    RVK:
    DP 4600
    RVK:
    SM 630
    RVK:
    TB 4053
    RVK:
    UB 4049
    RVK:
    VB 4052
    Keywords: Mathematics ; Education ; Education ; Mathematics
    Abstract: Modeling Students Mathematical Modeling Competencies offers welcome clarity and focus to the international research and professional community in mathematics, science, and engineering education, as well as those involved in the sciences of teaching and learning these subjects.
    Abstract: Modeling Students' Mathematical Modeling Competencies offers welcome clarity and focus to the international research and professional community in mathematics, science, and engineering education, as well as those involved in the sciences of teaching and learning these subjects
    Description / Table of Contents: Modeling Students' Mathematical Modeling Competencies; Contents; Contributors; Chapter 1: Introduction: ICTMA and the Teaching of Modeling and Applications; Part I: The Nature of Models & Modeling; Chapter 2: Introduction to Part I Modeling: What Is It? Why Do It?; References; Section 1: What Are Models?; Chapter 3: Modeling Theory for Math and Science Education; 3.1 Introduction; 3.2 Origins of Modeling Theory; 3.3 Models and Concepts; 3.4 Imagination and Intuition; 3.5 Mathematical Versus Physical Intuition; 3.6 Modeling Instruction; 3.7 Conclusions
    Description / Table of Contents: 3.8 Epilogue: A New Generation of Mathematical ToolsReferences; Chapter 4: Modeling a Crucial Aspect of Students' Mathematical Modeling; 4.1 Introduction; 4.2 Three Examples; 4.3 The Intricacies of Mathematization; 4.4 Modeling Students' Mathematizations; References; Chapter 5: Modeling Perspectives in Math Education Research; 5.1 Introduction; 5.2 Spesier and Walter on Models; 5.3 Harel on Models; 5.4 Larson on Models; 5.5 Oehrtman on Models; 5.6 Rasmussen and Zandieh on Models; References; Section 2: Where Are Models & Modelers Found?
    Description / Table of Contents: Chapter 6: Modeling to Address Techno-Mathematical Literacies in Work6.1 Introduction; 6.2 Methodology; 6.3 Findings; 6.4 Results; 6.4.1 Two Examples: Manufacturing and Statistical Process Control; 6.5 Conclusions; References; Chapter 7: Mathematical Modeling in Engineering Design Projects; 7.1 Introduction; 7.2 Methodology; 7.2.1 Industrial Engineering Undergraduates; 7.2.2 Mechanical Engineering Graduate Students; 7.3 Discussion; 7.4 Conclusion; References; Chapter 8: The Mathematical Expertise of Mechanical Engineers - The Case of Mechanism Design; 8.1 Introduction
    Description / Table of Contents: 8.2 Method of Investigation8.3 The Task: Design of Part of a Cutting Device; 8.4 Results and Discussion; 8.5 Conclusions; References; Section 3: What Do Modeling Processes Look Like?; Chapter 9: Modeling and Quantitative Reasoning: The Summer Jobs Problem; 9.1 Theoretical Framework; 9.2 Methods; 9.3 Results; 9.3.1 What Is the Students' Model?; 9.3.2 What Is the Role of Quantities in Students' Models?; 9.3.3 What Is the Role of Quantitative Reasoning in Students' Models?; 9.3.4 What Is the Relationship Between Quantitative Reasoning and Model Development?; 9.4 Discussion; References
    Description / Table of Contents: Chapter 10: Tracing Students' Modeling Processes in School10.1 Introduction; 10.2 Theoretical Framework; 10.3 The Present Study; 10.3.1 The Purpose of the Study; 10.3.2 Participants, Modelling Activity, and Procedures; 10.3.3 Data Sources and Analysis; 10.4 Results; 10.4.1 Modelling Processes; 10.4.2 Mathematical Developments; 10.5 Discussion; References; Section 4: What Creates "The Need For Modeling"; Chapter 11: Turning Ideas into Modeling Problems; 11.1 Introduction; 11.2 Approaches to Mathematical Modeling; 11.2.1 Modeling as Vehicle; 11.2.2 Modeling as Content
    Description / Table of Contents: 11.3 Educational Rationale
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-6271-8
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  • 10
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    Reconceptualizing early mathematics learning (2013)
    Dordrecht : Springer Netherlands
    Details
    ISBN: 9789400764408
    Language: English
    Pages: 1 Online-Ressource (viii, 329 Seiten) , Illustrationen
    Series Statement: Advances in Mathematics Education
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Erscheint auch als Reconceptualizing early mathematics learning
    RVK:
    SM 670
    Keywords: Curriculum planning ; Mathematics ; Science Study and teaching ; Early childhood education ; Education ; Education ; Curriculum planning ; Mathematics ; Science Study and teaching ; Early childhood education ; Mathematics ; Study and teaching (Elementary)
    Abstract: This book emanated primarily from concerns that the mathematical capabilities of young children continue to receive inadequate attention in both the research and instructional arenas. Research over many years has revealed that young children have sophisticated mathematical minds and a natural eagerness to engage in a range of mathematical activities. As the chapters in this book attest, current research is showing that young children are developing complex mathematical knowledge and abstract reasoning a good deal earlier than previously thought. A range of studies in prior to school and earl
    Description / Table of Contents: Reconceptualizing Early Mathematics Learning; Series Preface; Contents; Perspectives on Reconceptualizing Early Mathematics Learning; References; Early Mathematics Learning in Perspective: Eras and Forces of Change; Era of Experiential Learning (1900-1920); Influential Personages; Views of Children and the Teaching of Mathematics; Competing Views; Era of Childhood Readiness (1920-1940); Personages; Views of Children and the Teaching of Mathematics; Competing Views; Era of Cognitive Development (1940-1960); Personages; Views of Children and the Teaching of Mathematics; Competing Views
    Description / Table of Contents: Era of Socially-Scaffolded Development (1960-1980)Personages; Views of Children and the Teaching of Mathematics; Competing Views; Era of Culturally-Nested Learning (1980-2000); Personages; Views of Children and the Teaching of Mathematics; Competing Views; Emerging Era of Embodied Learning (2000-present); Conclusions; References; Early Awareness of Mathematical Pattern and Structure; Introduction; Pattern and Structure in Early Mathematical Development; Spatial Structuring; Numerical Structuring; Patterning and Data Representation; The Pattern and Structure Project
    Description / Table of Contents: Studies on Multiplicative StructureStructural Development of the Base Ten System; Awareness of Mathematical Pattern and Structure (AMPS); Examples of Structural Development; Structuring a Clock Face; Structuring Rectangular Grids; Structuring Area; Structuring a Triangular Array; Structuring Length; Structuring Data; Discussion; Conclusion; References; Reconceptualizing Early Mathematics Learning: The Fundamental Role of Pattern and Structure; Classroom-Based PASMAP Studies; Preschoolers' Patterning; An Intervention Study with Kindergarten Students; Summary of Early Research Findings
    Description / Table of Contents: The Reconceptualizing Early Mathematics Learning ProjectThe Sample; Procedure; The PASMAP Components; Assessment Interviews and Classroom Data; Results; Quantitative Outcome Analysis; Rasch Scale Analysis; Structural Outcomes Analysis; Discussion; Conclusions and Implications for Further Research and Teaching; References; Reconceptualizing Statistical Learning in the Early Years; Introduction; Data Modelling; Structuring and Representing Data; Metarepresentational and Conceptual Competence; Informal Inference: Making Predictions; The Role of Context; A Longitudinal Study of Data Modelling
    Description / Table of Contents: Activities and ProceduresData Collection and Analysis; Selection of Findings; Grade Two Children's Predictions for Baxter Brown's Picnic; Children's Questions and Representations for Planning a Picnic; Sharing Models for Planning a Picnic; Children's Conceptual and Metarepresentational Competence in Investigating and Planning Playgrounds; Discussion and Concluding Points; References; Cognitive Guidelines for the Design and Evaluation of Early Mathematics Software: The Example of MathemAntics; Introduction; Cognitive Principles for the Design of Software
    Description / Table of Contents: Engage Children in Cognitively and Mathematically Appropriate Activities
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-6440-8
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  • 11
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    Visual Mathematics and Cyberlearning (2013)
    Dordrecht : Springer
    Details
    ISBN: 9789400723214 , 1283944987 , 9781283944984
    Language: English
    Pages: Online-Ressource (X, 250 p, online resource)
    Series Statement: Mathematics Education in the Digital Era 1
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Martinovic, Dragana Visual Mathematics and Cyberlearning
    RVK:
    SM 603
    Keywords: Visualization ; Computer software ; Mathematics ; Education ; Education ; Visualization ; Computer software ; Mathematics ; Education Philosophy
    Abstract: The first volume in this new Springer series explores innovative ways of learning and doing mathematics to make it more appealing to the Net Generation. This generation consists of visual learners who thrive when surrounded with new technologies and whose diverse needs can be met by a variety of cyber tools. In their search for novel ways of studying, such as collaboration with peers and multitasking by using multimedia, the Internet, and other Information and Communication Technologies, they learn mathematics by playing games online, watching and sharing presentations on YouTube, exploring and creating Java applets of mathematics simulations and exchanging thoughts over the instant chat tools. This volume presents mathematics teaching and learning in a way that resonates with these new learners: as a contemporary subject that is engaging, exciting and enlightening. It offers educators insight into how they can make meaningful use of the dynamic, interactive, collaborative, and visual nature of new learning environments while having a deeper understanding of their potential advantages and limitations. This volume:- Bridges the gap between Net Generation learners and mathematics education- Presents conceptual frameworks for research in this area- Explores research data that shed a light on innovative theories and practices in the field of visual mathematics and cyberlearning.
    Description / Table of Contents: Visual Mathematics and Cyberlearning; Introduction; Mathematics Education in the Digital Era (MEDEra) Series; Visual Mathematics and Cyberlearning - The First Book in the MEDEra Series; Contents; Patterns of Collaboration: Towards Learning Mathematics in the Era of the Semantic Web; Introduction; Cyberlearning: From Web 1.0 to Web 2.0; Patterns of Collaboration: The Case of the MiGen and Metafora Projects; Collaboration in Exploratory Learning Environments; The MiGen System and the Metafora Platform; Collaboration Within the MiGen System and the Metafora Platform
    Description / Table of Contents: Student Collaboration and the TeacherCyberlearning: From Web 2.0 to Web 3.0; The Likely Impact of Web 3.0 on Systems Such as MiGen and Metafora; Conclusion; References; Collaborative Mathematics Learning in Online Environments; Introduction; Collaborative Online Learning of Research-Level Mathematics; Why Talk About the Research Level?; Overview of Online Collaboration at the Research Level; The Polymath Projects; The MathOverflow Website; Collaborative Online Learning: Undergraduate and School-Age Mathematics; Mathematics - Stack Exchange
    Description / Table of Contents: An Excerpt of an Exchange on Mathematics - Stack ExchangeA Global Learning Project; Virtual Math Teams; Analysis and Contextualization; Computer Supported Collaborative Learning; The Computer Moderated Communication Model; Networked Learning, and Collaboration Versus Cooperation; Self-Regulated Learning; Discussion; References; The Integration of Mathematics Discourse, Graphical Reasoning and Symbolic Expression by a Virtual Math Team; Mathematical Practices; Data Collection and Methodology; Setting Up the Mathematical Analysis; Excerpt 1: Constitution of a New Math Task
    Description / Table of Contents: Excerpt 2: Co-construction of a Method for Counting SticksExcerpt 3: Collective Noticing of a Pattern of Growth; Excerpt 4: Resolution of Referential Ambiguity via Visual Proof; Concluding the Mathematical Analysis; Excerpt 5: Re-initiating the Discussion of the Algebraic Formula; Excerpt 6: Co-reflection on What the Team has Achieved So Far; Excerpt 7: Overcoming the Problem of Overlapping Sticks; Excerpt 8: Derivation of the Formula for the Number of Sticks; Discussion; Visibility of the Production Process; Persistent Presence of Contributions
    Description / Table of Contents: Methods for Referencing Relevant Artifacts in the Shared Visual FieldCoordination of Whiteboard Visualizations and Chat Narratives; Past and Future Relevancies Implied by Shared Mathematical Artifacts; Conclusion; References; Investigating the Mathematical Discourse of Young Learners Involved in Multi-Modal Mathematical Investigations: The Case of Haptic Technologies; Background and Rationale; Dynamic Geometry; Haptic Technology; Merging Fields; Theoretical Perspectives; Multi-modal Environment Design; Technical Specifications; Design of Mathematical Activities; Classification of Solids
    Description / Table of Contents: Planar Intersections
    Description / Table of Contents: 1. Keith Jones, Eirini Geraniou, & Thanassis Tiropanis: Patterns of collaboration: Towards learning mathematics in the era of the semantic web -- 2. Gorjan Alagic & Mara Alagic: Collaborative mathematics learning in online environments -- 3. Murat Perit Cakir & Gerry Stahl: The integration of mathematics discourse, Graphical reasoning and symbolic expression by a Virtual Math Team -- 4. Beste Güçler, Stephen Hegedus, Ryan Robidoux, & Nicholas Jackiw: Investigating the Mathematical Discourse of Young Learners Involved in Multi-Modal Mathematical Investigations: The Case of Haptic Technologies -- 5. Dragan Trninic & Dor Abrahamson: Embodied interaction as designed mediations of conceptual performance -- 6. Luis Radford: Sensuous Cognition -- 7. George Gadanidis & Immaculate Namukasa: New media and online mathematics learning for teachers -- 8. Ann LeSage: Web-based video clips: A supplemental resource for supporting pre-service elementary mathematics teachers -- 9. Dragana Martinovic, Viktor Freiman, & Zekeriya Karadag: Visual mathematics and cyberlearning in view of Affordance and Activity Theories. .
    Note: Description based upon print version of record
    DOI: 10.1007/978-94-007-2321-4
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  • 12
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    Proficiency and Beliefs in Learning and Teaching Mathematics : Learning from Alan Schoenfeld and Günter Törner (2013)
    Rotterdam : SensePublishers
    Details
    ISBN: 9789462092990
    Language: English
    Pages: Online-Ressource (VIII, 317 p, online resource)
    Series Statement: Mathematics Teaching and Learning
    Series Statement: Educational Research E-Books Online, Collection 2005-2017, ISBN: 9789004394001
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Erscheint auch als Proficiency and Beliefs in Learning and Teaching Mathematics: Learning from Alan Schoenfeld and Günter Törner
    RVK:
    SM 600
    Keywords: Mathematics Study and teaching ; Education ; Education
    Abstract: Preliminary Material /Yeping Li and Judit N. Moschkovich -- Proficiency and Beliefs in Learning and Teaching Mathematics /Yeping Li and Judit N. Moschkovich -- About Alan H. Schoenfeld and His Work /Hugh Burkhardt and Yeping Li -- About Günter Törner and His Work /Hans Heinrich Brungs and Yeping Li -- Developing Problem Solving Skills in Elementary School /Kristina Reiss , Anke M. Lindmeier , Petra Barchfeld and Beate Sodian -- Transmissive and Constructivist Beliefs of In-Service Mathematics Teachers and of Beginning University Students /Christine Schmeisser , Stefan Krauss , Georg Bruckmaier , Stefan Ufer and Werner Blum -- Building on Schoenfeld’s Studies of Metacognitive Control towards Social Metacognitive Control /Ming Ming Chiu , Karrie A. Jones and Jennifer L. Jones -- The CAMTE Framework /Pessia Tsamir , Dina Tirosh , Esther Levenson , Ruthi Barkai and Michal Tabach -- Integrating Noticing into the Modeling Equation /Miriam Gamoran Sherin , Rosemary S. Russ and Bruce L. Sherin -- Teaching as Problem Solving /Ilana Seidel Horn -- Researching the Sustainable Impact of Professional Development Programmes on Participating Teachers’ Beliefs /Stefan Zehetmeier and Krainer Krainer -- Capturing Mathematics Teachers’ Professional Development in Terms of Beliefs /Bettina Roesken-Winter -- Mathematicians and Elementary School Mathematics Teachers - Meetings and Bridges /Jason Cooper and Abraham Arcavi -- Methodological Issues in Research and Development /Hugh Burkhardt -- A Mathematical Perspective on Educational Research /Cathy Kessel -- Issues Regarding the Concept of Mathematical Practices /Judit N. Moschkovich -- Looking Back and Ahead /Günter Törner -- Encore /Alan H. Schoenfeld -- Author Biographies /Yeping Li and Judit N. Moschkovich -- Index /Yeping Li and Judit N. Moschkovich.
    Abstract: Efforts to improve mathematics education have led educators and researchers to not only study the nature of proficiency, beliefs, and practices in mathematics learning and teaching, but also identify and assess possible influences on students’ and teachers’ proficiencies, beliefs, and practices in learning and teaching mathematics. The complexity of these topics has fascinated researchers from various backgrounds, including psychologists, cognitive or learning scientists, mathematicians, and mathematics educators. Among those researchers, two scholars with a similar background—Alan Schoenfeld in the United States and Günter Törner in Germany, are internationally recognized for their contributions to these topics. To celebrate their 65th birthdays in 2012, this book brought together many scholars to reflect on how their own work has built upon and continued Alan and Günter’s work in mathematics education. The book contains 17 chapters by 33 scholars from six different education systems. This collection describes recent research and provides new insights into these topics of interest to mathematics educators, researchers, and graduate students who wish to learn about the trajectory and direction of research on these issues
    Description / Table of Contents: Proficiency and Beliefs in Learning and Teaching Mathematics: Learning from Alan Schoenfeld and Günter Törner; TABLE OF CONTENTS; ACKNOWLEDGEMENTS; PART I: INTRODUCTION; 1. PROFICIENCY AND BELIEFS IN LEARNING AND TEACHING MATHEMATICS: An Introduction; INTRODUCTION; STRUCTURE OF THE BOOK; REFERENCES; AFFILIATIONS; 2. ABOUT ALAN H. SCHOENFELD AND HISWORK; INTRODUCTION; RESEARCH; Mathematical problem solving, learning, and teaching; Studies of the nature and development of mathematical proficiency; Research on teaching and teachers' decision-making and proficiency
    Description / Table of Contents: Improving educational practice through researchStandards and curricula; Assessment; "What works?"; Diversity in mathematics education; Research methodologies to improve the field and to have systematic impact; ADVANCING EDUCATIONAL RESEARCH AND PRACTICE AS A LEADER; NURTURING A NEW GENERATION OF SCHOLARS AS AN EDUCATOR; NOTES; REFERENCES; AFFILIATIONS; 3. ABOUT GÜNTER TÖRNER AND HISWORK; INTRODUCTION; SCHOLARLYWORK AS A MATHEMATICIAN; Prime segments and the classification of rank one chain rings and cones; Extensions; Structure of chain rings; Right chain domains
    Description / Table of Contents: Discrete mathematics, applied mathematicsSCHOLARLYWORK AS A MATHEMATICS EDUCATOR; Mathematical problem solving; Mathematical beliefs; Mathematical teachers' professional development; ACCOMPLISHMENTS AS A LEADER AND EDUCATOR; SUMMARY; ACKNOWLEDGEMENTS; REFERENCES; AFFILIATIONS; PART II: PROFICIENT PERFORMANCE, BELIEFS,AND METACOGNITION IN MATHEMATICALTHINKING, PROBLEM SOLVING,AND LEARNING; 4. DEVELOPING PROBLEM SOLVING SKILLS IN ELEMENTARY SCHOOL: The Case of Data Analysis, Statistics, and Probability; INTRODUCTION; SCIENTIFIC THINKING AND REASONING; PROBLEM SOLVING AND SCIENTIFIC REASONING
    Description / Table of Contents: PROBABILITY AND CHANCE IN EVIDENCE-BASED SCIENTIFIC REASONINGRESEARCH QUESTIONS; SAMPLE AND METHOD; RESULTS; Understanding of probability concepts, base rates, and sampling procedures; Problem-solving; Basic problems of evidence-based reasoning; Strategical decision-making; DISCUSSION; REFERENCES; AFFILIATIONS; 5. TRANSMISSIVE AND CONSTRUCTIVIST BELIEFS OF IN-SERVICE MATHEMATICS TEACHERS AND OF BEGINNING UNIVERSITY STUDENTS; INTRODUCTION; THE COACTIV STUDY; THE BELIEFS OF TEACHERS IN THE COACTIV COMPETENCEMODEL; Definition and conceptualization of beliefs; Epistemological beliefs
    Description / Table of Contents: Beliefs on learning and teaching of mathematicsIntegrative view on beliefs (according to Voss et al., 2013a); RESEARCH QUESTION; METHOD; Sample; Instrument; RESULTS; SUMMARY AND DISCUSSION; REFERENCES; AFFILIATIONS; 6. BUILDING ON SCHOENFELD'S STUDIES OF METACOGNITIVE CONTROL TOWARDS SOCIAL METACOGNITIVE CONTROL; INTRODUCTION; METACOGNITIVE CONTROL; Schoenfeld: Metacognitive control during mathematics problem solving; Benefits of metacognitive control; Improved problem solving processes; Improved outcomes; Challenges of metacognitive control; Metacognitive demands; Inaccurate evaluations
    Description / Table of Contents: Poor self-scaffolding
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-6209-299-0
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  • 13
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    Student Voice in Mathematics Classrooms around the World (2013)
    Rotterdam : SensePublishers
    Details
    ISBN: 9789462093508
    Language: English
    Pages: Online-Ressource (VIII, 317 p, online resource)
    Series Statement: Series Preface
    Series Statement: Learner's perspective study 4
    Series Statement: Educational Research E-Books Online, Collection 2005-2017, ISBN: 9789004394001
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Erscheint auch als Student Voice in Mathematics Classrooms around the World
    RVK:
    SM 600
    Keywords: Mathematics Study and teaching ; Education ; Education
    Abstract: Preliminary Material /Berinderjeet Kaur , Glenda Anthony , Minoru Ohtani and David Clarke -- The Learner’s Perspective Study: Attending to Student Voice /Glenda Anthony , Berinderjeet Kaur , Minoru Ohtani and David Clarke -- Spoken Mathematics as an Instructional Strategy: The Public Discourse of Mathematics Classrooms in Different Countries /David Clarke , Li Hua Xu and May Ee Vivien Wan -- Students Speaking Mathematics: Practices and Consequences for Mathematics Classrooms in Different Countries /David Clarke , Li Hua Xu and May Ee Vivien Wan -- Students at the Front: Examples from a Beijing Classroom /Yiming Cao , Kan Guo , Liping Ding and Ida Ah Chee Mok -- Participation of Students in Content-Learning Classroom Discourse: A Study of Two Grade 8 Mathematics Classes in Singapore /Berinderjeet Kaur -- Martina’s Voice /Florenda Gallos Cronberg and Jonas Emanuelsson -- What Do Students Attend to? Students’ Task-Related Attention in Swedish Settings /Rimma Nyman and Jonas Emanuelsson -- Students and Their Teacher in a Didactical Situation: A Case Study /Jarmila Novotná and Alena Hospešová -- Developing Mathematical Proficiency and Democratic 143 Agency through Participation – An Analysis of Teacher-Student Dialogues in a Norwegian 9th Grade Classroom /Ole Kristian Bergem and Birgit Pepin -- Matches or Discrepancies: Student Perceptions and Teacher Intentions in Chinese Mathematics Classrooms /Rongjin Huang and Angela T. Barlow -- What Really Matters to Students? A Comparison between Hong Kong and Singapore Mathematics Lessons /Ida Ah Chee Mok , Berinderjeet Kaur , Yan Zhu and King Woon Yau -- Student Perceptions of the ‘Good’ Teacher and ‘Good’ Learner in New Zealand Classrooms /Glenda Anthony -- The LPS Research Design /David Clarke -- Author Index /Berinderjeet Kaur , Glenda Anthony , Minoru Ohtani and David Clarke -- Subject Index /Berinderjeet Kaur , Glenda Anthony , Minoru Ohtani and David Clarke.
    Abstract: \' We highly recommend th ...
    Description / Table of Contents: ""Student Voice in Mathematics Classrooms around the World""; ""SERIES PREFACE""; ""TABLE OF CONTENTS""; ""ACKNOWLEDGEMENTS""; ""CHAPTER ONE: The Learner�s Perspective Study: Attending to Student Voice""; ""INTRODUCTION""; ""Mathematical Discourse in the Classroom""; ""Students� Participatory Practices within the Classroom""; ""Students� Perceptions of the Classroom and Teacher""; ""CONCLUSION""; ""REFERENCES""; ""CHAPTER TWO: Spoken Mathematics as an Instructional Strategy: The Public Discourse of Mathematics Classrooms in Different Countries""; ""SPOKEN MATHEMATICS IN THE CLASSROOM""
    Description / Table of Contents: ""LANGUAGE IN MATHEMATICS TEACHING/LEARNING""""STUDYING SPOKEN MATHEMATICS IN THE CLASSROOM""; ""PUBLIC MATHEMATICAL ORALITY: WHO GETS TO SPEAK PUBLICLY AND DO THEY TALK MATHEMATICS?""; ""SPOKEN MATHEMATICAL FLUENCY AS A VALUED LEARNING OUTCOME""; ""CONCLUSIONS""; ""NOTES""; ""REFERENCES""; ""CHAPTER THREE: Students Speaking Mathematics: Practices and Consequences for Mathematics Classrooms in Different Countries""; ""STUDENT-STUDENT MATHEMATICAL TALK""; ""CONNECTING MATHEMATICAL TALK AND LEARNING""; ""MATHEMATICAL DISCOURSE IN THE CLASSROOM FROM THE PERSPECTIVE OF THE LEARNER""
    Description / Table of Contents: ""PUBLIC MATHEMATICAL DISCOURSE""""THE SIGNIFICANCE OF STUDENT-STUDENT INTERACTIONS""; ""Spoken Mathematics in the Classroom: Key Points Summary""; ""SPOKEN MATHEMATICAL FLUENCY AS A VALUED LEARNING OUTCOME""; ""GENERAL DISCUSSION""; ""CONCLUSIONS""; ""ACKNOWLEDGEMENT""; ""NOTES""; ""REFERENCES""; ""CHAPTER FOUR: Students at the Front: Examples from a Beijing Classroom""; ""INTRODUCTION""; ""RESEARCH DESIGN AND METHODOLOGY""; ""RESEARCH PROCEDURE""; ""STATISTICS AND ANALYSIS""; ""SUMMARY OF FINDINGS""; ""There is Rich Variety in the Types of Students� Presentations at the Front""
    Description / Table of Contents: ""One or More Students Give Presentations Concerning One Problem""""The Main Form of Students� Presentations at the Front is Oral Explanation of the Approaches""; ""The Main Evaluation Form is Teacher-Student Mutual Comment""; ""DISCUSSION""; ""REFERENCES""; ""CHAPTER FIVE: Participation of Students in Content-Learning Classroom Discourse: A Study of Two Grade 8 Mathematics Classes in Singapore""; ""INTRODUCTION""; ""LITERATURE REVIEW""; ""METHODOLOGY""; ""Method""; ""Subjects""; ""Data Analysis""; ""DATA AND FINDINGS""; ""How Often Do Students Get an Opportunity to Engage in Public Talk?""
    Description / Table of Contents: ""What Are the Characteristics of Teacher-Student Public Talk?""""What Are the Teachers� Orientations of Discourse (Conceptual or Calculational)?""; ""Do Students Initiate any Public Talk with Their Teachers or Peers? If So, What Was the Purpose of the Talk?""; ""DISCUSSION""; ""During Content-Learning Classroom Discourse How Often Do Students Get an Opportunity to Engage in Public Talk?""; ""During Content-Learning Discourse What Are the Characteristics of Teacher-Student Public Talk?""
    Description / Table of Contents: ""During Content-Learning Discourse What Are the Teachers� Orientations of Discourse (Conceptual or Calculational)?""
    Note: Includes bibliographical references and indexes
    DOI: 10.1007/978-94-6209-350-8
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  • 14
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    Cognitive Activation in the Mathematics Classroom and Professional Competence of Teachers : Results from the COACTIV Project (2013)
    Boston, MA : Springer
    Details
    ISBN: 9781461451495
    Language: English
    Pages: Online-Ressource (VI, 378 p. 31 illus, digital)
    Series Statement: Mathematics Teacher Education 8
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Cognitive activation in the mathematics classroom and professional competence of teachers
    RVK:
    SM 300
    RVK:
    SM 600
    Keywords: Mathematics ; Educational psychology ; Education ; Education ; Mathematics ; Educational psychology ; Cognition in children--Congresses. ; Effective teaching--Congresses. ; Learning, Psychology of--Congresses. ; Mathematics--Study and teaching--Congresses. ; Mathematics ; Study and teaching ; Congresses ; Effective teaching ; Congresses ; Cognition in children ; Congresses ; Learning, Psychology of ; Congresses ; Aufsatzsammlung ; Mathematikunterricht ; Lehr-Lern-Forschung ; Mathematikunterricht ; Lehr-Lern-Forschung
    Abstract: Cognitive Activation in the Mathematics Classroom and Professional Competence of Teachers presents the findings of the Professional Competence of Teachers, Cognitively Activating Instruction, and Development of Students´ Mathematical Literacy project (COACTIV). COACTIV applies a broad, innovative conceptualization of teacher competence to examine how mathematics teachers’ knowledge, beliefs, motivational orientations, and self-regulation skills influence their instructional practice and teaching outcomes. Moreover, it gauges the effects of these teacher characteristics on student learning, as indexed by the progress of students in each class. For this book, COACTIV study data relating to various aspects of teacher competence and classroom instruction from the perspective of both the teachers themselves and their students was collected and analyzed. Questions addressed and discussed include: What are the characteristics of successful teaching? What distinguishes teachers who succeed in their profession? How can the quality of instruction be improved? Written for researchers from a broad range of areas, such as educational psychology, general education, and mathematics education, this book effectively demonstrates how teacher competence relates directly to measurable student learning gains
    Description / Table of Contents: Cognitive Activation in the Mathematics Classroom and Professional Competence of Teachers; Contents; Chapter 1: Professional Competence of Teachers, Cognitively Activating Instruction, and the Development of Students' Mathematical Literacy (COACTIV): A Research Program; 1.1 Guiding Research Questions and Theoretical Framework; 1.2 Instruction as the "Core Business" of Teaching; 1.3 Teaching as a Professional Activity; 1.4 Which Research Traditions Provide the Foundation for COACTIV?
    Description / Table of Contents: 1.4.1 Research on Teaching and Learning: Cognitively Activating Instruction, Opportunities, and Constraints of Generic Instructional Research1.4.2 Professional Knowledge: An Expertise-Based Approach Without the Focus on Peak Performance or Perfection; 1.4.3 Research on Motivational and Occupational Health Psychology; 1.5 Aims and Structure of This Book; 1.6 COACTIV: A Cooperative Research Endeavor; References; Part I:Theoretical and Empirical Foundations; Chapter 2: The COACTIV Model of Teachers' Professional Competence; 2.1 Generic Structural Model of Teachers' Professional Competence
    Description / Table of Contents: 2.2 The Core of Professionalism: Knowledge2.2.1 Dimensions of Professional Knowledge in the Teaching Profession; 2.2.2 Types of Knowledge and Their Mental Representation; 2.2.3 Content Knowledge and Pedagogical Content Knowledge; 2.2.4 Generic Pedagogical Knowledge and Skills; 2.2.5 Counseling and Organizational Knowledge; 2.3 Values and Beliefs; 2.4 Motivational Orientations and Self-Regulation; 2.4.1 Control Beliefs and Self-Efficacy Beliefs; 2.4.2 Intrinsic Motivational Orientations: Teacher Enthusiasm
    Description / Table of Contents: 2.4.3 Professional Self-Regulation: Engagement and the Ability to Maintain a Healthy Distance2.5 Conclusion: Professional Competence as a Multidimensional Construct; References; Chapter 3: Teacher Education in Germany; 3.1 Introduction; 3.2 Basic Structure of the German Secondary School System; 3.3 Historical Background; 3.3.1 History of Teacher Education; 3.3.2 Schooling and Teacher Education in a Divided Germany; 3.3.3 The Demise of the Hauptschule; 3.4 Teacher Education in Germany; 3.4.1 Teacher Education and School Types; 3.4.2 Two-Phase Training Model; 3.4.3 Teachers as Beamte
    Description / Table of Contents: 3.5 Current Problems and Developments3.5.1 Demographic Trends and "Pig Cycle" Fluctuations; 3.5.2 Bologna Process; 3.6 Summary; References; Chapter 4: The Development of Teachers' Professional Competence; 4.1 Introduction; 4.1.1 Causes of Interindividual Differences in Professional Competence: Individual Aptitude or Professional Qualification?; 4.1.2 A Theoretical Model of the Development of Teachers' Professional Competence; 4.1.2.1 Consequences of Professional Competence; 4.1.2.2 Learning Opportunities that Foster Professional Competence
    Description / Table of Contents: 4.1.2.3 Individual Teacher Characteristics and Their Influence on the Development of Competence
    Description / Table of Contents: The COACTIV Model of Teachers’ Professional Competence -- Teacher Education in Germany -- The Development of Teachers’ Professional Competence -- The COACTIV Research Program: Methodological Framework -- The Model of Instructional Quality in COACTIV: A Multicriteria Analysis -- Task Analysis in COACTIV: Examining the Potential for Cognitive Activation in German Mathematics Classrooms -- Mathematics Teachers’ Domain-Specific Professional Knowledge: Conceptualization and Test Construction in COACTIV -- The Effect of Content Knowledge and Pedagogical Content Knowledge on Instructional Quality and Student Achievement -- Teachers’ General Pedagogical/Psychological Knowledge -- The Diagnostic Skills of Mathematics Teachers -- Mathematics Teachers’ Beliefs -- Motivation as an Aspect of Professional Competence: Research Findings on Teacher Enthusiasm -- General Occupational Motivation and Self-Regulation -- Individual Characteristics of Prospective Teachers -- Learning at University -- Professional Development Across the Teaching Career -- The COACTIV Research Program On Teachers’ Professional Competence: Summary and Discussion -- Publications from the COACTIV Research Program (April 2012).
    Note: Description based upon print version of record
    DOI: 10.1007/978-1-4614-5149-5
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  • 15
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    Educational Interfaces between Mathematics and Industry : Report on an ICMI-ICIAM-Study (2013)
    Cham : Springer International Publishing
    Details
    ISBN: 9783319022703
    Language: English
    Pages: Online-Ressource (XV, 466 p. 62 illus., 50 illus. in color, online resource)
    Series Statement: New ICMI Study Series 16
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Educational interfaces between mathematics and industry
    RVK:
    SM 600
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Mathematics Study and teaching ; Congresses ; Academic-industrial collaboration Congresses
    Abstract: This book is the “Study Book” of ICMI-Study no. 20, which was run in cooperation with the International Council for Industry and Applied Mathematics (ICIAM). The editors were the co-chairs of the study (Damlamian, Straesser) and the organizer of the Study Conference (Rodrigues). The text contains a comprehensive report on the findings of the Study Conference, original plenary presentations of the Study Conference, reports on the Working Groups and selected papers from all over the world. This content was selected by the editors as especially pertinent to the study, each individual chapter representing a significant contribution to current research.
    Description / Table of Contents: Foreword I; Foreword II; Prologue; Contents; Part IDiscussion Document and Study Report; 1 Discussion Document; 1…Introduction; 1.1 Tentative Description of the Field; 1.2 Rationale for the Study; 2…The Role of Mathematics: Visibility and Black Boxes; 3…Examples of Use of Technology and Mathematics; 4…Communication and Collaboration; 5…Teaching and Learning of Industrial Mathematics: Making Industrial Mathematics More Visible; 6…Using Technology and Learning with Technology: Modelling and Simulation; 7…Teaching and Learning for Communication and Collaboration; 8…Curriculum and Syllabus Issues
    Description / Table of Contents: 9…Teacher Training10…Good Practices and Lessons to be Learned; 11…Research and Documentation; Reference; 2 Report on the Study; 1…Aim and Scope of the Study; 2…The Discussion Document; 3…The Contributions Offered; 4…The Study Conference; 5…Work After the Study Conference; References; Part IIPlenary and Invited Lectures; 3 Getting Math off the Ground: Applied Mathematics at Boeing; 1…Introduction; 2…The Boeing Company; 3…The Boeing Applied Mathematics Group; 4…Big and Little Examples; 5…Working with Our Engineering Colleagues, and Helping Them Work with Us; References
    Description / Table of Contents: 4 Mathematics in the Workplace: Issues and Challenges1…Findings from Ethnographic Studies; 2…Methods; 3…Techno-Mathematical Literacies in Manufacturing and Financial Industry; 4…Developing Techno-Mathematical Literacies; 5…Conclusions; References; 5 Mathematical Modeling Education is the Most Important Educational Interface Between Mathematics and Industry; 1…Mathematical Modeling is the Most Important Interface Between Mathematics and Industry; 2…Mathematical Modeling Education is the Most Important Educational Interface Between Mathematics and Industry
    Description / Table of Contents: 3…China's Efforts in Strengthening Mathematical Modeling Education and ResearchReference; 6 Models for Industrial Problems: How to Find and How to Use them---in Industry and in Education; References; 7 Interfacing Education and Research with Mathematics for Industry: The Endeavor in Japan; 1…A Brief Historical Observation for Mathematics in Japan; 1.1 Historical Comments; 1.2 Mathematics in Japan; 1.3 Applied and Industrial Mathematics in Japan; 2…Education and Research Hub for Mathematics for Industry; 2.1 Mathematics for Industry; 2.2 Graduate School of Mathematics, Kyushu University
    Description / Table of Contents: 2.3 Background About the Programs: From the Report by Nistep2.4 Various Activities; 3…Mext's 2009 Project ''Investigation and Estimation of Promotion of Cooperation of Mathematics and Mathematical Science with Other Fields''; 4…Foundation of the Research and Education Hub ''Institute of Mathematics for Industry'' in Kyushu University; 5…Asia-Pacific Consortium of Mathematics for Industry; Acknowledgments; Part IIIWG Education/Training with Industry Participation; 8 Education/Training with Industry Participation; 1…Introduction; 2…Theoretical Framework; 2.1 Informal Learning
    Description / Table of Contents: 2.2 Boundary Crossing
    Description / Table of Contents: Part I:Dicsussion document and Study ReportDiscussion Document (appeared in L’Enseignement Mathématique and ZDM 2009) -- Report on the Study (by the editors) -- Part II: Plenary and Invited Lectures -- Getting Math Off the Ground: Applied Mathematics at Boeing -- Mathematics in the Workplace: Issues and Challenges -- Mathematical Modelling Education is the Most Important Educational Interface between Mathematics and Industry -- Models for Industrial Problems: How to find and how to use them - in industry and in education -- Interfacing Educational & Research with Mathematics-for-Industry: The Endeavour in Japan -- Part III: WG Education/training with industry participation -- Report on the Working Group -- How is it Possible to Make Real-World Mathematics More Visible: Results From Italian Projects -- Project “Ways to More MINT-graduates” of the Bavarian Business Association with Focus on Mathematics at the University of Augsburg, Germany -- Mathematics in a Safety-Critical Work Context: The Case of Numeracy for Nursing -- Linking Professional Experiences With Academic Knowledge. The Construction of Statistical Concepts by Sales Manager Apprentices -- Learning Conversation in Mathematics Practice - School-Industry Partnerships as an Arena for Teacher Education -- The Threefold Dilemma of Missing Coherence -- The Project “Mathe-Meister” - A Mathematical Self Assessment Centre With Diagnostic Feedback For Vocational Trainees -- Part IV:WG University & academic technical/vocational education -- Report on the Working Group -- Mathematics for Engineering and Engineering for Mathematics -- Laboratory of Computational Mathematics: an interface between academia and industry -- Improving the industrial/mathematics interface -- Two masters on Mathematics for Industry at the Universities of Paris and of Pau -- Mathematics in Industry and Teachers Training -- Interfaces between Mathematics and Industry and the Use of Technology in Mathematics Education in India -- Modeling “Modeling”: Developing Habits of Mathematical Minds -- The evolution of graduate applied math courses in the Institute of Mathematics, University of the Philippines -- The Vertical Integration of Industrial Mathematics the WPI Experience -- Part V: WG Education in Schools -- Report on the Working Group -- Mathematical applications, modelling and technology as windows into industry based mathematical practice -- Mathematics Education and the Information Society -- Authentic Complex Modelling Problems in Mathematics Education -- Embedding Authentic Real World Tasks into Secondary Mathematics Curricula -- Drawing on understanding of workplace practice to inform design of general mathematics curricula -- Part VI: WG Mathematics-Industry Communication -- Report on the Working Group -- Engineering, Mathematics communication and Education: reflections on a personal experience -- A View on Mathematical Discourse in Research and Development -- Using Popular Science in a Mathematical Modeling Course -- Part VII:WG Technology issues -- Report on the Working Group -- Tackling the challenges of computational mathematics education of engineers -- Computational modelling in science, technology, engineering and mathematics education -- Incorporating the Ideas and Methods of Mathematical Modelling into Calculus Teaching -- Part VIII:WG The mathematics-industry interface -- Report on the Working Group -- Part IX: Selected Papers linked to more than one Working Group -- Using spreadsheets in the finance industry -- MITACS ACCELERATE: A Case Study of a Successful Industrial Research Internship Program -- A Meta-analysis of Mathematics Teachers of the GIFT Program Using Success Case Methodology -- Cultivating an Interface Through Collaborative Research between Engineers in Nippon Steel and Mathematicians in University -- An Introduction to CUMCM: China/Contemporary Undergraduate Mathematical Contest in Modeling -- Part X:Conclusion -- Conclusion.
    Note: Description based upon print version of record
    DOI: 10.1007/978-3-319-02270-3
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  • 16
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    Teaching Mathematical Modelling: Connecting to Research and Practice (2013)
    Dordrecht : Springer Netherlands
    Details
    ISBN: 9789400765405
    Language: English
    Pages: Online-Ressource (XVI, 627 p. 193 illus., 59 illus. in color, online resource)
    Series Statement: International Perspectives on the Teaching and Learning of Mathematical Modelling
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Druckausg. Teaching mathematical modelling
    RVK:
    SN 400
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Mathematisches Modell ; Mathematisches Modell
    Abstract: This book provides readers with an overview of recent international research and developments in the teaching and learning of modelling and applications from a variety of theoretical and practical perspectives. There is a strong focus on pedagogical issues for teaching and learning of modelling as well as research into teaching and practice. The teaching of applications of mathematics and mathematical modelling from the early years through primary and secondary school and at tertiary level is rising in prominence in many parts of the world commensurate with an ever-increasing usage of mathematics in business, the environment, industry and everyday life. The authors are all members of the International Community of Teachers of Mathematical Modelling and Applications and important researchers in mathematics education and mathematics. The book will be of interest to teachers, practitioners and researchers in universities, polytechnics, teacher education, curriculum and policy.?
    Description / Table of Contents: part I. Innovative practices in modelling education research and teachingpart II. Research into, or evaluation of, teaching practice -- part III. Pedagogical issues for teaching and learning -- part Ivolume Influences of technologies -- part volume Assessment in schools -- part VI. Applicability at different levels of schooling, vocational education, and in tertiary education -- part VII. Modelling and applications in business and the lived environment.
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-6540-5
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  • 17
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    Proof and Proving in Mathematics Education : The 19th ICMI Study (2012)
    Dordrecht : Springer Netherlands
    Details
    ISBN: 9789400721296
    Language: English
    Pages: Online-Ressource (XII, 475 p. 120 illus, digital)
    Series Statement: New ICMI Study Series 15
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T.
    RVK:
    SM 603
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Mathematics—Study and teaching .
    Abstract: 1. Aspects of proof in mathematics education: Gila Hanna and Michael de Villiers -- Part I: Proof and cognition -- 2. Cognitive development of proof: David Tall, Oleksiy Yevdokimov, Boris Koichu, Walter Whiteley, Margo Kondratieva, and Ying-Hao Cheng -- 3. Theorems as constructive visions: Giuseppe Longo -- Part II: Experimentation: Challenges and opportunities -- 4. Exploratory experimentation: Digitally-assisted discovery and proof: Jonathan M. Borwein -- 5. Experimental approaches to theoretical thinking: Artefacts and proofs -- Ferdinando Arzarello, Maria Giuseppina Bartolini Bussi, Allen Leung, Maria Alessandra Mariotti, and Ian Stevenson (With response by J. Borwein and J. Osborn) -- Part III: Historical and educational perspectives of proof -- 6. Why proof? A historian’s perspective: Judith V. Grabiner -- 7. Conceptions of proof – in research and in teaching: Richard Cabassut, AnnaMarie Conner, Filyet Asli Ersoz, Fulvia Furinghetti, Hans Niels Jahnke, and Francesca Morselli -- 8. Forms of proof and proving in the classroom: Tommy Dreyfus, Elena Nardi, and Roza Leikin -- 9. The need for proof and proving: mathematical and pedagogical perspectives: Orit Zaslavsky, Susan D. Nickerson, Andreas Stylianides, Ivy Kidron, and Greisy Winicki -- 10. Contemporary proofs for mathematics education: Frank Quinn -- Part IV: Proof in the school curriculum -- 11. Proof, Proving, and teacher-student interaction: Theories and contexts: Keith Jones and Patricio Herbst -- 12. From exploration to proof production: Feng-Jui Hsieh, Wang-Shian Horng, and Haw-Yaw Shy -- 13. Principles of task design for conjecturing and proving: Fou-Lai Lin, Kyeong-Hwa Lee, Kai-Lin Yang, Michal Tabach, and Gabriel Stylianides -- 14. Teachers’ professional learning of teaching proof and proving: Fou-Lai Lin, Kai-Lin Yang, Jane-Jane Lo, Pessia Tsamir, Dina Tirosh, and Gabriel Stylianides -- Part V: Argumentation and transition to tertiary level -- 15. Argumentation and proof in the mathematics classroom: Viviane Durand-Guerrier, Paolo Boero, Nadia Douek, Susanna Epp, and Denis Tanguay -- 16. Examining the role of logic in teaching proof: Viviane Durand-Guerrier, Paolo Boero, Nadia Douek, Susanna Epp, and Denis Tanguay -- 17. Transitions and proof and proving at tertiary level: Annie Selden -- Part VI: Lessons from the Eastern cultural traditions -- 18. Using documents from ancient China to teach mathematical proof: Karine Chemla -- 19. Proof in the Western and Eastern traditions: Implications for mathematics education: Man Keung Siu -- Acknowledgements -- Appendix 1: Discussion Document -- Appendix 2: Conference Proceedings: Table of contents -- Author Index -- Subject Index.
    Abstract: One of the most significant tasks facing mathematics educators is to understand the role of mathematical reasoning and proving in mathematics teaching, so that its presence in instruction can be enhanced. This challenge has been given even greater importance by the assignment to proof of a more prominent place in the mathematics curriculum at all levels. Along with this renewed emphasis, there has been an upsurge in research on the teaching and learning of proof at all grade levels, leading to a re-examination of the role of proof in the curriculum and of its relation to other forms of explanation, illustration and justification. This book, resulting from the 19th ICMI Study, brings together a variety of viewpoints on issues such as: The potential role of reasoning and proof in deepening mathematical understanding in the classroom as it does in mathematical practice. The developmental nature of mathematical reasoning and proof in teaching and learning from the earliest grades. The development of suitable curriculum materials and teacher education programs to support the teaching of proof and proving. The book considers proof and proving as complex but foundational in mathematics. Through the systematic examination of recent research this volume offers new ideas aimed at enhancing the place of proof and proving in our classrooms.
    Description / Table of Contents: Proof and Provingin Mathematics Education; Contents; Contributors; Chapter 1: Aspects of Proof in Mathematics Education; 1 ICMI Study 19; 2 Contents of the Volume; 3 Conclusion; Part1: Proof and Cognition; Chapter 2: Cognitive Development of Proof; 1 Introduction; 2 Perceptions of Proof; 2.1 What Is Proof for Mathematicians?; 2.2 What Is Proof for Growing Individuals?; 3 Theoretical Framework; 3.1 Theories of Cognitive Growth; 3.2 Crystalline Concepts; 3.3 A Global Framework for the Development of Mathematical Thinking; 4 The Development of Proof from Embodiment
    Description / Table of Contents: 4.1 From Embodiment to Verbalisation4.2 From Embodiment and Verbalisation to Pictorial and Symbolic Representations; 4.3 From Embodiment, Verbalisation and Symbolism to Deduction; 5 Euclidean and Non-Euclidean Proof; 5.1 The Development of Euclidean Geometry; 5.2 The Beginnings of Spherical and Non-Euclidean Geometries; 6 Symbolic Proof in Arithmetic and Algebra; 6.1 The Increasing Sophistication of Proof in Arithmetic and Algebra; 6.2 Proof by Contradiction and the Development of Aesthetic Criteria; 7 Axiomatic Formal Proof; 7.1 Student Development of Formal Proof
    Description / Table of Contents: 7.2 Structure Theorems and New Forms of Embodiment and Symbolism in Research Mathematics8 Summary; References*; Chapter 3: Theorems as Constructive Visions; 1 The Constructive Content of Euclid's Axioms; 2 From Axioms to Theorems; 3 On Intuition; 4 Little Gauss' Proof; 4.1 Arithmetic Induction and the Foundation of Mathematical Proof; 4.2 Prototype Proofs; 5 Induction vs. Well-Ordering in Concrete Incompleteness Theorems; 6 The Origin of Logic; 7 Conclusion; References; Part2: Experimentation: Challenges and Opportunities
    Description / Table of Contents: Chapter 4: Exploratory Experimentation: Digitally-Assisted Discovery and Proof1 Digitally-Assisted Discovery and Proof; 1.1 Exploratory Experimentation; 1.2 Digitally Mediated Mathematics; 1.3 Experimental Mathodology; 1.3.1 What Is Experimental Mathematics?; 1.4 Cognitive Challenges; 1.5 Paradigm Shifts; 2 Mathematical Examples; Example I: What Did the Computer Do?; Example II: What Is That Number?; Example III: From Discovery to Proof; Example IV: From Concrete to Abstract; Example V: A Dynamic Discovery and Partial Proof; Example VI: Knowledge Without Proof
    Description / Table of Contents: Example VII. A Mathematical Physics LimitExample VIII: Apéry's Formula; Example IX: When Is Easy Bad?; 3 Concluding Remarks; References; Chapter 5: Experimental Approaches to Theoretical Thinking: Artefacts and Proofs; 1 Introduction; 2 Part 1: From Straight-Edge and Compass to Dynamic Geometry Software; 2.1 Classical European Geometry; 2.2 The Modern Age in Europe; 2.3 Constructions with Straight-Edge and Compass in the Mathematics Classroom; 2.4 Constructions in a DGS; 2.5 DGS Constructions in the Classroom; 2.6 Experiments and Proofs with the Computer
    Description / Table of Contents: 2.7 Implementation in Mathematics Classrooms
    Note: Description based upon print version of record
    DOI: 10.1007/978-94-007-2129-6
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  • 18
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    Towards Equity in Mathematics Education : Gender, Culture, and Diversity (2012)
    Berlin, Heidelberg : Springer Berlin Heidelberg
    Details
    ISBN: 9783642277023
    Language: English
    Pages: Online-Ressource (XVIII, 597p. 26 illus, digital)
    Series Statement: Advances in Mathematics Education
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Towards equity in mathematics education
    RVK:
    SM 600
    Keywords: Mathematics ; Developmental psychology ; Education ; Education ; Mathematics ; Developmental psychology ; Aufsatzsammlung ; Mathematikunterricht ; Chancengleichheit
    Abstract: Ferdinand Rivera
    Abstract: This volume gathers together twenty major chapters that tackle a variety of issues associated with equity in mathematics education along the dimensions of gender, culture, curriculum diversity, and matters of a biological nature. The pursuit of equity in mathematics education is an important concern in the history of the present. Since there is no doubt about the significant role of mathematics in almost every aspect of life, it means that all individuals regardless of sex, in any age range, and in whatever context need to be provided with an opportunity to become mathematically able. The publication of this Springer volume on equity in mathematics education is situated at a time when there is strong and sustained research evidence indicating the persistence of an equity gap in mathematics, which has now enabled the mathematics education community to engage in a discourse of access for all. The research studies that are reported and discussed in the volume have been drawn from an international group of distinguished scholars whose impressive, forward-looking, and thought-provoking perspectives on relevant issues incite, broaden, and expand complicated conversations on how we might effectively achieve equity in mathematics education at the local, institutional, and systemic levels. Further, the up-to-date research knowledge in the field that is reflected in this volume provides conceptual and practical outlines for mechanisms of change, including models, examples, and usable theories that can inform the development of powerful equitable practices and the mobilization of meaningful equity interventions in different contexts of mathematics education. Prof. Dr. Helen Forgasz, Monash University, Faculty of Education, Clayton, Australia Assoc. Prof. Ferdinand Rivera, San Jose State University, Mathematics, San Jose, California, USA
    Description / Table of Contents: Towards Equity in Mathematics Education; Series Preface; Contents; Introduction; References; Part I: Equity and Gender; Preface to ""Moving Towards a Feminist Epistemology of Mathematics""; 1 Feminism/Gender/Connected Social Constructs; 2 Mathematics/Equity/Social Justice Pedagogies; 3 Instruction/Perspectives on Mathematics/Testing; References; Moving Towards a Feminist Epistemology of Mathematics; 1 Introduction; 2 Adopting a Cultural View of Mathematics; 3 Knowing Science and Mathematics; 4 Being a Mathematician; 5 The Epistemological Challenge; References
    Description / Table of Contents: Preface to ""Equity in Mathematics Education: Unions and Intersections of Feminist and Social Justice Literature""1 Introduction to Math for Social Analysis; 2 Introduction to MEPI Research; 3 Theoretical and Practical Challenges; Balancing Mathematics Content and Social Critique; Balancing Mathematics Content and Pedagogy; Balancing In-Class and Out-of-Class Experiences and Learning; 4 Final Thoughts; References; Equity in Mathematics Education: Unions and Intersections of Feminist and Social Justice Literature; 1 Introduction; 2 Gender Differences in Mathematics
    Description / Table of Contents: 3 Situating Gender Equity Within Broader Equity Concerns4 Global Picture of Gender Equity; 5 Reconstructing Mathematics: Mathematics Education in the Public Interest; 5.1 Setting New Goals in Mathematics Education; 5.2 Why Mathematical Literacy?; 5.3 Why Critical Literacy?; 5.4 Why Community Literacy?; 5.5 Unions and Intersections of Feminist and Social Justice Literature; 6 Summary; References; Preface to ""Adolescent Girls' Construction of Moral Discourses and Appropriation of Primary Identity in a Mathematics Classroom""; References
    Description / Table of Contents: Adolescent Girls' Construction of Moral Discourses and Appropriation of Primary Identity in a Mathematics Classroom1 Introduction; 1.1 Theoretical Framework: Bakhtin's Theory of Language and Identity; 2 Methodology; 3 The Teacher and Classroom Contexts; 4 Three Students; 4.1 Jessica: They Call Us ""Smarties""; 4.2 Stella: Between Two Worlds; 4.3 Amanda: Political Dissent; 5 Discussion; References; Shall We Do Politics or Learn Some Maths Today? Representing and Interrogating Social Inequality; 1 Strategies of Representation; 2 Texts, Contexts and Patriarchy; 3 Putting the Class into Texts
    Description / Table of Contents: 4 Critical Mathematics Education?References; Commentary on the Chapter by Paul Dowling and Jeremy Burke, ""Shall We Do Politics or Learn Some Maths Today? Representing and Interrogating Social Inequality""; 1 Mathematics and the World; 2 Mathematics Education and Social Justice; References; Commentary on the Chapter by Dowling and Burke, ""Shall We Do Politics or Learn Some Maths Today? Representing and Interrogating Social Inequality""; References; Gender Role Stereotypes in the Perception of Mathematics: An Empirical Study with Secondary Students in Germany; 1 State of the Art
    Description / Table of Contents: 2 Design of the Study
    Note: Description based upon print version of record
    DOI: 10.1007/978-3-642-27702-3
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  • 19
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    Equity in Discourse for Mathematics Education : Theories, Practices, and Policies (2012)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789400728134 , 1283456656 , 9781283456654
    Language: English
    Pages: Online-Ressource (XIV, 268p. 10 illus, digital)
    Series Statement: Mathematics Education Library 55
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Equity in discourse for mathematics education
    RVK:
    SM 607
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Mathematikunterricht ; Diskursanalyse
    Abstract: David Pimm
    Abstract: This book covers the discourse and equity in mathematics education research. Given the inherent connection between discourse and equity, this book focuses on two approaches to the connection. Contributors consider the ways in which the social, mathematical, cultural, and political aspects of classroom interactions impact students' opportunities to participate in the kinds of discourse practices that provide access to resources. Contributors also consider the perceptions and practices of educators, particularly the extent to which they view diversity as a resource and to which they are aware of
    Description / Table of Contents: Equity in Discourse for Mathematics Education; Foreword; Discourse and Equity: The Simultaneous Challenge of Epistemological and Social Access; Preface; Contents; Chapter 1: Inherent Connections Between Discourse and Equity in Mathematics Classrooms; 1 Equity; 2 Discourse; 3 Changing Discourse Patterns in Mathematics Classrooms; 3.1 Making Language Practices Explicit; 3.2 Cultural Dimensions of Discourse; 3.3 Structuring Equitable Discourse; 4 Bringing These Perspectives Together in This Book; Part I: Equity Concerns Draw Attention to Discourse
    Description / Table of Contents: Chapter 2: Context Matters: How Should We Conceptualize Equity in Mathematics Education?1 Framing Equity; 2 Equity in Teaching and Learning Contexts; 2.1 Nine U.S. High Schools; 2.2 A Successful Teacher Community; 2.3 Twenty-Three Teacher Candidates; 2.4 The 'Achievement Gap'; 3 Future Research; 4 Postscript (2011); Chapter 3: Exploring Scholastic Mortality Among Working-Class and Indigenous Students; 1 Teaching Working-Class and Indigenous Students: An Act of Symbolic Violence?; 2 Both-Ways Education: Challenging Symbolic Violence; 3 Resistance Theory: Alternatives to Deficit Models
    Description / Table of Contents: 4 Language Structures and Marginalising Discourses5 Language Differences: The Case of Questioning; 5.1 Written Questions and Contexts; 5.2 Classroom Interactions; 5.3 Questions to Control Behaviour and Flow of Lessons; 5.4 Questions to Elicit Knowledge; 6 Teacher Judgement and Success: The Curse of Ability in Mathematics Education; Chapter 4: Mathematics Learning in Groups: Analysing Equity Within an Activity Structure; 1 Equity and Opportunities to Learn in Mathematical Group Work; 1.1 Analysing Equity in Terms of Opportunities to Learn; 2 Methods; 2.1 Major Data Sources
    Description / Table of Contents: 2.2 Identifying Work Practices2.3 Identifying Positioning; 3 Equity and Interaction in the Presentation Preparation; 4 Discussion; Chapter 5: Aiming for Equity in Ethnomathematics Research; 1 Context; 2 Ethnomathematics; 3 Positioning Theory; 4 Shifting Storylines in the Research Conversations; 4.1 Changing Storylines; 4.2 Challenges of Representation; 5 Reflection; Chapter 6: How Equity Concerns Lead to Attention to Mathematical Discourse; 1 Multiple Approaches to Equity Discourse and Ethnomathematics; 2 Three Points of Further Discussion; 2.1 Defining 'discourse'
    Description / Table of Contents: 2.2 Issues with the Discourse Practices of School2.3 Issues with Using Ethnomathematical Approaches; 3 Equitable and Successful Practices in U.S. Mathematics Classrooms; 4 Some Recommendations for Future Research on Equity and Discourse; 4.1 Recommendation #1: Avoid Essentializing Cultural Practices; 4.2 Recommendation #2: Avoid Deficit Models; 4.3 Recommendation #3: Recognize the Complexity of Language and Discourse Practices; 4.4 Recommendation #4: Shift Away from Monolithic Views of Mathematical Discourse; Part II: Attention to Discourse Highlights Equity Concerns
    Description / Table of Contents: Chapter 7: Linguistic Tools for Exploring Issues of Equity
    Note: Description based upon print version of record
    DOI: 10.1007/978-94-007-2813-4
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  • 20
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    Becoming a Mathematician : An international perspective (2012)
    Dordrecht : Springer Netherlands
    Details
    ISBN: 9789400729841
    Language: English
    Pages: Online-Ressource (VIII, 188p. 1 illus, digital)
    Series Statement: Mathematics Education Library 56
    Series Statement: SpringerLink
    Series Statement: Bücher
    Series Statement: Springer eBook Collection
    Series Statement: Humanities, Social Science and Law
    Parallel Title: Buchausg. u.d.T. Wood, Leigh N. Becoming a mathematician
    RVK:
    SB 850
    Keywords: Mathematics ; Education ; Mathematiker ; Berufsbild ; Berufslaufbahn ; Mathematikunterricht ; Mathematiker ; Berufsbild ; Berufslaufbahn ; Mathematikunterricht
    DOI: 10.1007/978-94-007-2984-1
    URL: Volltext
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  • 21
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    Online Resource
    Advances in Nature of Science Research : Concepts and Methodologies (2012)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789400724570 , 1283456427 , 9781283456425
    Language: English
    Pages: Online-Ressource (X, 268p. 16 illus, digital)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Advances in nature of science research
    RVK:
    DP 4600
    RVK:
    VB 4052
    RVK:
    UB 4049
    RVK:
    TB 4053
    RVK:
    SM 630
    Keywords: Curriculum planning ; Science Study and teaching ; Education ; Education ; Curriculum planning ; Science Study and teaching ; Science ; Study and teaching ; Science ; Philosophy ; Wissenschaft ; Wissenschaftstheorie ; Empirische Forschung ; Naturwissenschaftlicher Unterricht
    Abstract: This book consolidates contemporary thinking and research efforts in teaching and learning about the nature of science in science education. The term 'Nature of Science' (NoS) has appeared in the science education literature for many decades. While there is still a controversy among science educators about what constitutes NoS, educators are unanimous in acknowledging the importance of this topic as well as the need to make it explicit in teaching science. The general consensus is that the nature of science is an intricate and multifaceted theme that requires continued scholarship
    Abstract: This book consolidates contemporary thinking and research efforts in teaching and learning about the nature of science in science education. The term 'Nature of Science' (NoS) has appeared in the science education literature for many decades. While there is still a controversy among science educators about what constitutes NoS, educators are unanimous in acknowledging the importance of this topic as well as the need to make it explicit in teaching science. The general consensus is that the nature of science is an intricate and multifaceted theme that requires continued scholarship. Recent anal
    Description / Table of Contents: pt. 1. Conceptual issues in the nature of science research -- pt. 2. Methodological advances in the nature of science research.
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-2457-0
    URL: Volltext
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  • 22
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    Online Resource
    Mathematical Knowledge in Teaching (2011)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789048197668 , 1283085755 , 9781283085755
    Language: English
    Pages: Online-Ressource (VIII, 228p. 50 illus, digital)
    Series Statement: Mathematics Education Library 50
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Mathematical knowledge in teaching
    RVK:
    SM 607
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Education ; Mathematics ; Mathematics ; Study and teaching ; Research ; Mathematics teachers ; Training of ; Effective teaching ; Mathematical ability ; Aufsatzsammlung ; Mathematik ; Unterricht
    Abstract: The quality of primary and secondary school mathematics teaching is generally agreed to depend crucially on the subject-related knowledge of the teacher. However, there is increasing recognition that effective teaching calls for distinctive forms of subject-related knowledge and thinking. Thus, established ways of conceptualizing, developing and assessing mathematical knowledge for teaching may be less than adequate. These are important issues for policy and practice because of longstanding difficulties in recruiting teachers who are confident and conventionally well-qualified in mathematics, and because of rising concern that teaching of the subject has not adapted sufficiently. The issues to be examined in Mathematical Knowledge in Teaching are of considerable significance in addressing global aspirations to raise standards of teaching and learning in mathematics by developing more effective approaches to characterizing, assessing and developing mathematical knowledge for teaching.
    Description / Table of Contents: Contents; Contributors; 1 Introduction: Mathematical Knowledge in Teaching; Part I Conceptualising Mathematical Knowledge in Teaching; 2 Conceptualising Teachers' Mathematical Knowledge in Teaching; 3 Knowing and Identity: A Situated Theory of Mathematics Knowledge in Teaching; 4 Changed Views on Mathematical Knowledge in the Course of Didactical Theory Development: Independent Corpus of Scientific Knowledge or Result of Social Constructions?; 5 Teaching Mathematics as the Contextual Application of Mathematical Modes of Enquiry; 6 Conceptualising Mathematical Knowledge in Teaching
    Description / Table of Contents: Part II Understanding the Cultural Context of Mathematical Knowledge in Teaching7 The Cultural Location of Teachers' Mathematical Knowledge: Another Hidden Variable in Mathematics Education Research?; 8 How Educational Systems and Cultures Mediate Teacher Knowledge: `Listening' in English, FrenchINTbreak; and German Classrooms; 9 Modelling Teaching in Mathematics Teacher Education and the Constitution of Mathematics for Teaching; 10 Audit and Evaluation of Pedagogy: Towards a Cultural-Historical Perspective; 11 The Cultural Dimension of Teachers' Mathematical Knowledge
    Description / Table of Contents: Part III Building Mathematical Knowledge in Teaching by Means of Theorised Tools12 The Knowledge Quartet as an Organising Framework for Developing and Deepening Teachers' Mathematics Knowledge; 13 Learning to Teach Mathematics Using Lesson Study; 14 Using Theories to Build Kindergarten Teachers' Mathematical Knowledge for Teaching; 15 Teachers' Stories of Mathematical Subject Knowledge: Accounting for the Unexpected; 16 Building Mathematical Knowledge in Teaching by Means of Theorised Tools; 17 Conclusion; Author Index; Subject Index
    Note: Includes bibliographical references and indexes
    DOI: 10.1007/978-90-481-9766-8
    URL: Volltext
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  • 23
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    Online Resource
    Teaching Statistics in School Mathematics-Challenges for Teaching and Teacher Education : A Joint ICMI/IASE Study: The 18th ICMI Study (2011)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789400711310
    Language: English
    Pages: Online-Ressource (XVII, 425p. 17 illus, digital)
    Series Statement: New ICMI Study Series 14
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Teaching statistics in school mathematics-challenges for teaching and teacher education
    RVK:
    SM 619
    Keywords: Mathematics ; Statistics ; Education ; Education ; Mathematics ; Statistics ; Aufsatzsammlung ; Mathematikunterricht ; Statistik
    Abstract: Chris Reading
    Abstract: This book results from the Joint ICMI/IASE Study Teaching Statistics in School Mathematics: Challenges for Teaching and Teacher Education. Oriented to analyse the teaching of statistics in school and to recommend improvements in the training of mathematics teachers to encourage success in preparing statistically literate students, the volume provides a picture of the current situation in both the teaching of school statistics and the pre-service education of mathematics teachers. A primary goal of Teaching Statistics in School Mathematics-Challenges for Teaching and Teacher Education is to des
    Description / Table of Contents: Contents; Preface; International Programme Committee; Part I: Global Perspective; Part II: Fundamentals for Teaching Statistics; Part III: Teachers' Beliefs, Attitudes and Knowledge; Part IV: Challenges and Experiences in Teacher Education; Overview: Challenges for Teaching Statistics in School Mathematics and Preparing Mathematics Teachers; Index
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-94-007-1131-0
    URL: Volltext
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  • 24
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    Online Resource
    Lesson Study Research and Practice in Mathematics Education : Learning Together (2011)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789048199419 , 1283085828 , 9781283085823
    Language: English
    Pages: Online-Ressource (X, 350p, digital)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Lesson study research and practice in mathematics education
    RVK:
    SM 600
    RVK:
    SM 620
    Keywords: Mathematics ; Education ; Education ; Mathematics ; Education ; Mathematics ; Mathematics ; Study and teaching ; Mathematics ; Study and teaching ; Research ; Lesson planning ; Effective teaching ; Mathematikunterricht
    Abstract: Lesson study is a professional development process that teachers engage in to systematically examine their practice, with the goal of becoming more effective. Originating in Japan, lesson study has gained significant momentum in the mathematics education community in recent years. As a process for professional development, lesson study became highly visible when it was proposed as a means of supporting the common practice of promoting better teaching by disseminating documents like standards, benchmarks and nationally validated curricula. While the body of knowledge about lesson study is growing, it remains somewhat elusive and composed of discrete research endeavors. As a new research area there is no coherent knowledge base yet. This book will contribute to the field bringing the work of researchers and practitioners together to create a resource for extant work. This book describes several aspects of Lesson Study, amongst others: it gives an historical overview of the concept, it addresses issues related to learning and teaching mathematics, it looks at the role of the teacher in the process. The last two sections of the book look at how lesson Study can be used with preservice mathematics teachers and at university mathematics methods teaching.
    Description / Table of Contents: Prologue; Contents; Contributors; Introduction: Conceptual Overview of Lesson Study; Lesson Study: Structures, History, and Variation; Research on Lesson Study; Issues from the Field; Learning About Lesson Study Together; References; Part I; Jumping into Lesson Study: Inservice Mathematics Teacher Education; Part II; Emerging Issues from Lesson Study Approaches in Prospective Mathematics Teacher Education; Part III; Challenges and Promises of Unchartered Water: Lesson Study and Institutes of Higher Education; Part IV
    Description / Table of Contents: Seeing the Whole Iceberg: The Critical Role of Tasks, Inquiry Stance, and Teacher Learning in Lesson StudyPart V; Ideas for Developing Mathematical Pedagogical Content Knowledge Through Lesson Study; Final Thoughts
    Description / Table of Contents: Introduction: conceptual overview of lesson study / Aki MurataPart I. Jumping into lesson study: inservice mathematics teacher education -- Lesson study: the impact on teachers' knowledge for teaching mathematics / Rachelle D. Meyer and Trena L. Wilkerson -- Developing the habits of mind for a successful lesson study community / Lynn C. Hart and Jane Carriere -- Influence of lesson study on teachers' mathematics pedagogy / Jo Clay Olson, Paul White and Len Sparrow -- Examining change in teacher mathematical knowledge through lesson study / Diane Hobenshield Tepylo and Joan Moss -- Response to Part I / Akihiko Takahashi -- Part II. Emerging issues from lesson study approaches in prospective mathematics teacher education -- Investigating approaches to lesson study in prospective mathematics teacher education / Maria Lorelei Fernandez and Joseph Zilliox -- Lesson study in preservice elementary mathematics methods courses: connecting emerging practice and understanding / Aki Murata and Bindu E. Pothen -- Lesson study as a framework for preservice teachers' early field-based experiences / Paul W.D. Yu -- Response to Part II / Despina Potari -- Part III. Challenges and promises of unchartered water: lesson study and institutes of higher education -- Lesson study as a tool for developing teachers' close attention to students' mathematical thinking / Alice S. Alston, Lou Pedrick, Kimberley P. Morris, and Roya Basu -- Lesson study as a learning environment for coaches of mathematics teachers / Andrea Knapp, Megan Bomer and Cynthia Moore -- Walking the talk: lessons learned by university mathematics methods instructors implementing lesson study for their own professional development / Michael Kamen, Debra L. Junk, Stephen Marble, Sandra Cooper, Colleen M. Eddy, Trena L. Wilkerson and Cameron Sawyer -- Response to Part III / Tad Watanabe -- Part IV. Seeing the whole iceberg: the critical role of tasks, inquiry stance, and teacher learning in lesson study -- The critical role of task development in lesson study / Brian Doig, Susie Groves and Toshiakira Fujii -- The intersection of lesson study and design research: a 3-D visualization development project for the elementary mathematics curriculum / Jacqueline Sack and Irma Vazquez -- Lesson study: a case of the investigations mathematics curriculum with practicing teachers at fifth grade / Penina Kamina and Patricia Tinto -- Response to Part IV / Catherine Lewis -- Part V. Ideas for developing mathematical pedagogical content knowledge through lesson study -- What's going on backstage? Revealing the work of lesson study with mathematics teachers / Catherine D. Bruce and mary S. Ladky -- Learning from lesson study: power distribution in a community of practice / Dolores Corcoran -- Preparing for lesson study: tools for success / Mary Pat Sjostrom and Melfried Olson -- Response to Part V / Makoto Yoshida and William C. Jackson -- Final thoughts.
    Note: Includes bibliographical references and index
    DOI: 10.1007/978-90-481-9941-9
    URL: Volltext
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  • 25
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    Online Resource
    Models and Modeling : Cognitive Tools for Scientific Enquiry (2011)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 1283086115 , 9789400704497 , 9781283086110
    Language: English
    Pages: Online-Ressource , v.: digital
    Edition: Online-Ausg. Springer eBook Collection. Humanities, Social Science and Law Electronic reproduction; Available via World Wide Web
    Series Statement: Models and Modeling in Science Education 6
    DDC: 507.1
    RVK:
    DP 4600
    RVK:
    DP 4630
    RVK:
    SM 630
    RVK:
    TB 4053
    RVK:
    UB 4049
    RVK:
    VB 4052
    RVK:
    WB 1027
    Keywords: Education ; Science Study and teaching
    Abstract: The process of developing models, known as modeling, allows scientists to visualize difficult concepts, explain complex phenomena and clarify intricate theories. In recent years, science educators have greatly increased their use of modeling in teaching, especially real-time dynamic modeling, which is central to a scientific investigation. Modeling in science teaching is being used in an array of fields, everything from primary sciences to tertiary chemistry to college physics, and it is sure to play an increasing role in the future of education. Models and Modeling: Cognitive Tools for Scientific Enquiry is a comprehensive introduction to the use of models and modeling in science education. It identifies and describes many different modeling tools and presents recent applications of modeling as a cognitive tool for scientific enquiry.
    Description / Table of Contents: pt. 1. Theory formation and modeling in science education -- pt. 2. Modeling and student learning in science educatin -- pt. 3. Modeling and teachers' knowledge.
    Note: Includes bibliographical references and indexes , Electronic reproduction; Available via World Wide Web
    DOI: 10.1007/978-94-007-0449-7
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  • 26
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    Learning Through Teaching Mathematics : Development of Teachers' Knowledge and Expertise in Practice (2010)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789048139903
    Language: English
    Pages: Online-Ressource (XII, 300p. 63 illus, digital)
    Series Statement: Mathematics Teacher Education 5
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Learning through teaching mathematics
    RVK:
    SM 620
    Keywords: Mathematics ; Educational psychology ; Education ; Education ; Educational psychology ; Mathematics ; Aufsatzsammlung ; Mathematikunterricht ; Mathematiklehrer ; Fachwissen
    Description / Table of Contents: pt. 1. Theoretical and methodological perspectives on teachers learning through teaching -- pt. 2. Examples of learning through teaching : pedagogical mathematics -- pt. 3. Examples of learning through teaching : mathematical pedagogy.
    Note: Includes bibliographical references and indexes
    DOI: 10.1007/978-90-481-3990-3
    URL: Volltext
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  • 27
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    Online Resource
    Modeling Students' Mathematical Modeling Competencies : ICTMA 13 (2010)
    Boston, MA : Springer Science+Business Media, LLC
    Details
    ISBN: 9781441905611
    Language: English
    Pages: Online-Ressource , v.: digital
    Edition: 1
    Edition: Online-Ausg. Springer eBook Collection. Humanities, Social Science and Law Electronic reproduction; Available via World Wide Web
    RVK:
    SD 2007
    RVK:
    SM 603
    RVK:
    SM 619
    RVK:
    DP 4600
    RVK:
    SM 630
    RVK:
    TB 4053
    RVK:
    UB 4049
    RVK:
    VB 4052
    Keywords: Education ; Mathematics ; Science Study and teaching ; Mathematikunterricht ; Mathematisches Modell ; Fähigkeit
    Abstract: As we enter the 21st century, there is an urgent need for new approaches to mathematics education emphasizing its relevance in young learners' futures. Modeling Students' Mathematical Modeling Competencies explores the vital trend toward using real-world problems as a basis for teaching mathematics skills, competencies, and applications. Blending theoretical constructs and practical considerations, the book presents papers from the latest conference of the ICTMA, beginning with the basics (Why are models necessary? Where can we find them?) and moving through intricate concepts of how students perceive math, how instructors teach and how both can become better learners. Dispatches as varied as classroom case studies, analyses of math in engineering work, and an in-depth review of modeling-based curricula in the Netherlands illustrate modeling activities on the job, methods of overcoming math resistance, and the movement toward replicable models and lifelong engagement. A sampling of topics covered: How students recognize the usefulness of mathematics Creating the modeling-oriented classroom Assessing and evaluating students' modeling capabilities The relationship between modeling and problem-solving Instructor methods for developing their own models of modeling New technologies for modeling in the classroom Modeling Students' Mathematical Modeling Competencies offers welcome clarity and focus to the international research and professional community in mathematics, science, and engineering education, as well as those involved in the sciences of teaching and learning these subjects.
    Note: Includes bibliographical references , Electronic reproduction; Available via World Wide Web
    DOI: 10.1007/978-1-4419-0561-1
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  • 28
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    Online Resource
    Visualization in Mathematics, Reading and Science Education (2010)
    Dordrecht : Springer Science+Business Media B.V
    Details
    ISBN: 9789048188161 , 1280002786 , 9781280002786
    Language: English
    Pages: Online-Ressource (XIV, 106 p, digital)
    Series Statement: Models and Modeling in Science Education 5
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Phillips, Linda M. Visualization in mathematics, reading and science education
    RVK:
    SM 600
    RVK:
    DP 2500
    RVK:
    DP 4000
    RVK:
    DP 4400
    RVK:
    DP 4600
    Keywords: Science Study and teaching ; Education ; Education ; Science Study and teaching ; Visualization ; Mathematics ; Study and teaching ; Reading ; Science ; Study and teaching ; Naturwissenschaftlicher Unterricht ; Visualisierung ; Mathematikunterricht ; Visualisierung ; Leseunterricht ; Visualisierung ; Naturwissenschaftlicher Unterricht ; Visualisierung
    Abstract: Visualizations - either self-created or external visual stimuli used as an aid to learning - are probably as old as learning itself. Yet surprisingly little research has been done either into how precisely they help us learn, or how to produce ones that are effective pedagogical tools. This volume, a comprehensive review of theory and research on the use of visualization in mathematics, science and reading, contrasts the two dominant theoretical paradigms of how people construct and interpret visualizations. However, the authors never lose sight of practical applications, providing frequent, accessible synopses of research findings in addition to succinct summaries of how the research affects practice. Written by a team with decades of experience in research and practice in the three subjects, the chapters show how cognitive psychology can enhance practical pedagogy, place visualizations in their proper historical context, and analyze in detail the effectiveness of paper-, computer- and video-based visualizations, with some surprising results. The book is published at a time when, it seems, there is no limit to the art of creating visualizations, as powerful computers make graphics ever more colorful and realistic and 'interactivity' is firmly established as a buzzword in the educational lexicon. The aim of the volume is to explore some central questions in the field, including how to evaluate visualizations and whether or not they can act as an aid to reading development, and to mathematics and science learning. The authors also point to potentially fruitful subjects for future research, and offer their own conclusions and recommendations. As the debate continues over the value of visualizations, with polarized arguments on the one hand lauding them and on the other dismissing them as gimmicks, this book introduces a voice of reason to the discussion that will be welcomed by psychologists and educationalists alike.
    Description / Table of Contents: Preface; Contents; Overview; Part I An Introduction To Visualization; 1 A Commonsense View and Its Problems; 2 A History of Visualization in Psychology and Science; 3 The Concept of Visualization; 4 Cognitive Theory; Part II Current Educational Research; 5 Visualizations and Mathematics; 6 Visualizations and Reading; 7 Visualizations and Science; Part III Cautions and Recommendations; 8 Research and Guidelines on Computer-Generated Visualizations; 9 Concluding Comments, Recommendations, and Further Considerations; References; Author Index; Subject Index;
    Note: Description based upon print version of record
    DOI: 10.1007/978-90-481-8816-1
    URL: Volltext
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  • 29
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    Teaching Mathematical Reasoning in Secondary School Classrooms (2010)
    Boston, MA : Springer-Verlag US
    Details
    ISBN: 9780387097428 , 1282839381 , 9780387097411 , 9781282839380
    Language: English
    Pages: Online-Ressource (XIII, 225 p, digital)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Parallel Title: Buchausg. u.d.T. Ecole d’Eté de Probabilités de Saint-Flour VIII-1978
    RVK:
    SI 850
    Keywords: Curriculum planning ; Mathematics ; Education ; Curriculum planning ; Education ; Mathematics
    Abstract: For too many students, mathematics consists of facts in a vacuum, to be memorized because the instructor says so, and to be forgotten when the course of study is completed. In this all-too-common scenario, young learners often miss the chance to develop skills-specifically, reasoning skills-that can serve them for a lifetime. The elegant pages of Teaching Mathematical Reasoning in Secondary School Classrooms propose a more positive solution by presenting a reasoning- and discussion-based approach to teaching mathematics, emphasizing the connections between ideas, or why math works. The teacher
    Description / Table of Contents: Brodie_Intro Part 1.pdf; Anchor 1; Brodie_Ch01.pdf; Chapter 1; Teaching Mathematical Reasoning: A Challenging Task; The Centrality of Mathematical Reasoning in Mathematics Education; Justifying and Generalizing; The Role of Proof in Mathematical Reasoning; Creativity and Reasoning; Theories of Learning and Mathematical Reasoning; Constructivism; Socio-Cultural Theories; Situated Theories; Teaching Mathematical Reasoning; Tasks for Mathematical Reasoning; Classroom Interaction; The Challenges of Teaching Mathematical Reasoning; Brodie_Ch02.pdf; Chapter 2; Contexts, Resources, and Reform
    Description / Table of Contents: Responses to ReformsThe South African Context; Five Schools: Contexts and Resources; Race and Socio-Economic Status; School Resources; Classroom Resources; Learner Knowledge; The Tasks; The Grade 11 Tasks; The Grade 10 Tasks; Brodie_Intro Part 2.pdf; Introduction to Part 2; Brodie_Ch03.pdf; Chapter 3; Mathematical Reasoning Through Tasks: Learners' Responses; Tasks that Support Mathematical Reasoning; Teaching for Mathematical Reasoning; The Classroom and the Tasks; Learners' Responses: An Overview; Learners' Responses: Detailed Analysis; Using the Contribution to Move Forward
    Description / Table of Contents: Pushing for Explanation of Particular IdeasConclusions and Implications; Brodie_Ch04.pdf; Chapter 4; Learning Mathematical Reasoning in a Collaborative Whole-Class Discussion; What Is Mathematical Reasoning?; Why Teach Mathematical Reasoning?; Collaborative Learning and Mathematical Reasoning; Summarizing My Perspective; My Classroom; The Analysis; Winile's Learning; Making Observations; Explaining and Justifying Assertions Made; Connecting Observations with Mathematical Representations; Reconstructing Conceptual Understanding; Testing Other Claims; The Teacher's Role; Establishing Discourse
    Description / Table of Contents: Framing DiscussionLesson Flow or Momentum; Conclusions and Implications; Brodie_Ch05.pdf; Chapter 5; Classroom Practices for Teaching and Learning Mathematical Reasoning; Classroom Practices; Learning Mathematical Reasoning; Teaching Mathematical Reasoning: Questioning and Listening; My Classroom; Teacher Moves and Practices; Learner Moves and Practices; Conclusions and Implications; Brodie_Ch06.pdf; Chapter 6; Teaching Mathematical Reasoning with the Five Strands; A Social-Constructivist Framework; Mathematical Practices and Proficiency; My Classroom and the Tasks; Initial Analysis
    Description / Table of Contents: Classroom InteractionLearners' Work; Procedural Fluency; Conceptual Understanding; Strategic Competence; Adaptive Reasoning; The Five Strands in the Learners' Work; Conclusion; Brodie_Ch07.pdf; Chapter 7; Teaching the Practices of Justification and Explanation; Construction and Practices; The Practices of Justification and Explanation; The Importance of Tasks; The Teacher's Contribution; My Classroom; The Learners' Written Responses; Whole-Class Interaction; Incorrect Justification; Partial Justification; Correct Justification; Conclusions; Brodie_Intro Part 3.pdf; Introduction to Part 3
    Description / Table of Contents: Brodie_Ch08.pdf
    Note: Includes bibliographies
    DOI: 10.1007/978-0-387-09742-8
    URL: Volltext
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  • 30
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    Online Resource
    Secondary Algebra Education : Revisiting Topics and Themes and Exploring the Unknown (2010)
    Rotterdam : SensePublishers
    Details
    ISBN: 9789460913341
    Language: English
    Pages: Online-Ressource (IV, 229p, digital)
    Series Statement: SpringerLink
    Series Statement: Bücher
    Series Statement: Dutch Design in Mathematics Education 5
    Series Statement: Educational Research E-Books Online, Collection 2005-2017, ISBN: 9789004394001
    Series Statement: Springer eBook Collection
    Series Statement: Humanities, Social Science and Law
    Parallel Title: Buchausg. u.d.T. Secondary algebra education
    RVK:
    SM 617
    Keywords: Mathematics ; Education ; Algebra Study and teaching ; Mathematics—Study and teaching . ; Education ; Mathematics ; Mathematikunterricht ; Algebra
    Abstract: Preliminary Material /Paul Drijvers -- Preface /Paul Drijvers -- Algebra Education: Exploring Topics and Themes /Paul Drijvers , Aad Goddijn and Martin Kindt -- Algebra from Ahmes to applet /Aad Goddijn -- From arithmetic to algebra /Truus Dekker and Maarten Dolk -- Patterns and formulas /Paul Drijvers , Truus Dekker and Monica Wijers -- Restrictions in algebra /David Webb and Mieke Abels -- Algebra in function /Michiel Doorman and Paul Drijvers -- Principles of practice /Martin Kindt -- Algebra and technology /Paul Drijvers , Peter Boon and Martin van Reeuwijk -- Algebra in science and engineering /Henk Van Der Kooij and Aad Goddijn -- Index /Paul Drijvers.
    Abstract: Nowadays, algebra education is subject to worldwide scrutiny. Different opinions on its goals, approaches and achievements are at the heart of debates among teachers, educators, researchers and decision makers. What should the teaching of algebra in secondary school mathematics look like? Should it focus on procedural skills or on algebraic insight? Should it stress practice or integrate technology? Do we require formal proofs and notations, or do informal representations suffice? Is algebra in school an abstract subject, or does it take its relevance from application in (daily life) contexts? What should secondary school algebra education that prepares for higher education and professional practice in the twenty-first century look like? This book addresses these questions, and aims to inform in-service and future teachers, mathematics educators and researchers on recent insights in the domain, and on specific topics and themes such as the historical development of algebra, the role of productive practice, and algebra in science and engineering in particular. The authors, all affiliated with the Freudenthal Institute for Science and Mathematics Education in the Netherlands, share a common philosophy, which acts as a—sometimes nearly invisible—backbone for the overall view on algebra education: the theory of realistic mathematics education. From this point of departure, different perspectives are chosen to describe the opportunities and pitfalls of today’s and tomorrow’s algebra education. Inspiring examples and reflections illustrate current practice and explore the unknown future of algebra education to appropriately meet students’ needs
    DOI: 10.1007/978-94-6091-334-1
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