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Modeling Students' Mathematical Modeling Competencies : ICTMA 13 (2013)

Lesh, Richard ; Galbraith, Peter L. ; Haines, Christopher R. ; [et al.]

Dordrecht : Springer Netherlands

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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

URL: Volltext

URL: Cover

URL: Inhaltstext

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Lenses and Waves : Christiaan Huygens and the Mathematical Science of Optics in the Seventeenth Century (2005)

Dijksterhuis, Fokko Jan

Dordrecht : Springer Netherlands

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ISBN: 9781402026980

Language: English

Pages: Online-Ressource (IX, 289 p, digital)

Series Statement: Archimedes 9

Series Statement: SpringerLink

Series Statement: Bücher

Series Statement: Springer eBook Collection

Series Statement: Humanities, Social Science and Law

Parallel Title: Buchausg. u.d.T. Dijksterhuis, Fokko Jan Lenses and waves

RVK:

TB 2355

RVK:

TB 3187

RVK:

UB 2420

Keywords: Science (General) ; Technology Philosophy ; Mathematics_$xHistory ; Physics History ; Science, general ; Philosophy ; Science, Humanities and Social Sciences, multidisciplinary ; Huygens, Christiaan 1629-1695 ; Optik ; Geschichte

Abstract: From the contents: 1. Introduction – 'The perfect Cartesian' -- 2. 1653 – 'Tractatus' -- 3. 1655-1672 – 'De Aberratione' -- 4. The 'Project' of 1672 -- 5. 1677-1679 – Waves of Light -- 6. 1690 – Traité de la Lumière -- 7. Conclusion: Lenses & Waves -- List of figures -- Bibliography -- Index

Abstract: In 1690, Christiaan Huygens (1629-1695) published Traité de la Lumière, containing his renowned wave theory of light. It is considered a landmark in seventeenth-century science, for the way Huygens mathematized the corpuscular nature of light and his probabilistic conception of natural knowledge. This book discusses the development of Huygens’ wave theory, reconstructing the winding road that eventually led to Traité de la Lumière. For the first time, the full range of manuscript sources is taken into account. In addition, the development of Huygens’ thinking on the nature of light is put in the context of his optics as a whole, which was dominated by his lifelong pursuit of theoretical and practical dioptrics. In so doing, this book offers the first account of the development of Huygens’ mathematical analysis of lenses and telescopes and its significance for the origin of the wave theory of light. As Huygens applied his mathematical proficiency to practical issues pertaining to telescopes – including trying to design a perfect telescope by means of mathematical theory – his dioptrics is significant for our understanding of seventeenth-century relations between theory and practice. With this full account of Huygens’ optics, this book sheds new light on the history of seventeenth-century optics and the rise of the new mathematical sciences, as well as Huygens’ oeuvre as a whole. Students of the history of optics, of early mathematical physics, and the Scientific Revolution, will find this book enlightening

DOI: 10.1007/1-4020-2698-8

URL: lizenzpflichtig

URL: Cover

URL: Inhaltstext

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New Challenges in Superconductivity: Experimental Advances and Emerging Theories : Proceedings of the NATO Advanced Research Workshop on New Challenges in Superconductivity: Experimental Advances and Emerging Theories Miami, Florida, U.S.A. 11–14 January 2004 (2005)

Ashkenazi, J. ; Cohn, Joshua L. ; Eremin, Ilya ; [et al.]

Dordrecht : Springer Netherlands

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ISBN: 9781402030857

Language: English

Pages: Online-Ressource (XVII, 266p, digital)

Series Statement: NATO Science Series, Series II: Mathematics, Physics and Chemistry 183

Series Statement: SpringerLink

Series Statement: Bücher

Series Statement: Springer eBook Collection

Series Statement: Humanities, Social Science and Law

Parallel Title: Buchausg. u.d.T. New challenges in superconductivity

RVK:

UP 2200

Keywords: Science (General) ; Condensed matter ; Particles (Nuclear physics) ; Superconductivity ; Science, general ; Physics ; Supraleitung

Abstract: Fulin Zuo

Abstract: This volume contains the proceedings of the 2004 University of Miami Workshop onUnconventional Superconductivity. The workshop was the fourth in a series of successful meetings on High-TCSuperconductivity and related topics, which took place at the James L. Knight Physics Building on the University of Miami campus in Coral Gables, Florida, in January 1991, 1995, 1999, and 2004.The volume includes high-quality papers on state of the art works on unconventional superconductivity. A key issue, discussed by many in the workshop, was how homogeneous the cuprates are. STM data, as well as other reports, showed that the cuprate superconductors (SC's) studied were inhomogeneous, especially in the underdoped regime; while experiments, like ARPES and magnetoresistance have established the existence of a Fermi Surface, at least above some doping level, in the cuprates. Other topics ranging from the pseudogap problem to pairing mechanisms are also discussed by various authors. In general, experiments show more convergence than high-TCtheories. There is definitely no consensus on the high- TCmechanism, although two broad groups exist: those around the extended "Big Tent" homogenous scheme, and those who assume an intrinsic inhomogeneous state. Another division could be viewed between those who consider the high- TCmechanism to be essentially of an electronic-magnetic origin (with no role played by the lattice), and those who assign an important role to the lattice.There seemed to be a consensus in the workshop that MgB2 and the fullerenes are simpler SC's than the cuprates, while work on ruthenocuprates and the coexistence of SC and ferromagnetism provided new stimuli to research and understanding. Interest was drawn also by the new NaxCoO2yH2O SC. Although this is a low-TCmaterial, its physical properties have asimilarity to those of the cuprates; thus research on this system seems to be important for the understanding of high TCSC.The volume gives a brief overview of many facets of present day superconductivity research and should be of great interest to all scientists and research students who work in the field of superconductivity or related subjects in condensed matter physics and material sciences.

DOI: 10.1007/1-4020-3085-1

URL: Volltext

URL: Cover

URL: Inhaltstext

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Evaluation of Science and Technology Education at the Dawn of a New Millennium (2002)

Altschuld, James W. [HerausgeberIn] ; Kumar, David D. [HerausgeberIn]

Dordrecht : Imprint: Springer | Dordrecht : Springer Netherlands

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ISBN: 9780306475603

Language: English

Pages: 1 Online-Ressource(XVI, 279 p.)

Edition: 1st ed. 2002.

Series Statement: Innovations in Science Education and Technology 14

Parallel Title: Erscheint auch als

RVK:

DF 2602

RVK:

UB 4080

Keywords: Assessment. ; Science education. ; School management and organization. ; School administration. ; Educational tests and measurements. ; Science—Study and teaching. ; Education ; Science Study and teaching ; Educational tests and measurements ; USA ; Technische Bildung

Abstract: What Does the Future Have in Store for the Evaluation of Science and Technology Education? -- What Role Should TIMSS Play in the Evaluation of U.S. Science Education? -- Evaluating Systemic Reform -- Musings on Science Program Evaluation in an Era of Educational Accountability -- Assessment Reform -- Evaluation of Information Technology -- Complementary Approaches to Evaluating Technology in Science Teacher Education -- Evaluation of Science Teaching Performance through Coteaching and Cogenerative Dialoguing -- Evaluating Science Inquiry -- Distance Learning in Science Education.

Abstract: "James Altschuld, David Kumar, and their chapter authors have produced an upbeat, provocative, visionary, and useful volume on educational evaluation. Of special utility is its grounding in issues and practices relating to evaluations of science and technology education. The book should appeal and be useful to a wide range of persons involved in evaluations of educational policy, programs, and (less so) science teachers. These persons include science and technology education experts, educational policymakers, officials of the National Science Foundation, school administrators, classroom teachers, evaluation instructors, evaluation methodologists, practicing evaluators, and test developers, among others. Contents reflecting international studies of curriculum, evaluation of distance education, and evaluation of technology utilization in Australian schools, as well as evaluations in America should make the book appealing to an international audience. Moreover, it provides a global perspective for assessing and strengthening educational evaluation in the US." Daniel L. Stufflebeam, Professor of Education and Director of the Evaluation Center, Western Michigan University For contents, contributors and a free preview: www.new-in-education.com.

Description / Table of Contents: ""Contents""

Note: Includes bibliographical references and index

DOI: 10.1007/0-306-47560-X

URL: lizenzpflichtig

URL: Volltext

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