1. //
  2. Start
  3. //
  4. Publikationen
  5. What does it mean to be sensitive for th...
  6. Formate
  7. //

What does it mean to be sensitive for the complexity of (problem oriented) teaching?

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Standard

What does it mean to be sensitive for the complexity of (problem oriented) teaching? / Fritzlar, Torsten.
Problem solving in mathematics education: Proceedings of ProMath Conference 08.- 11.09.2005 at the University Debrecen, Hungary.. Hrsg. / Tünde Kántor. Debrecen: University of Debrecen, 2006. S. 21-29.

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Harvard

Fritzlar, T 2006, What does it mean to be sensitive for the complexity of (problem oriented) teaching? in T Kántor (Hrsg.), Problem solving in mathematics education: Proceedings of ProMath Conference 08.- 11.09.2005 at the University Debrecen, Hungary.. University of Debrecen, Debrecen, S. 21-29, 6th International ProMath Conference - ProMath 2005, Debrecen, Ungarn, 08.09.05. <http://webdoc.urz.uni-halle.de/dl/287/pub/ProMath2005.pdf>

APA

Fritzlar, T. (2006). What does it mean to be sensitive for the complexity of (problem oriented) teaching? In T. Kántor (Hrsg.), Problem solving in mathematics education: Proceedings of ProMath Conference 08.- 11.09.2005 at the University Debrecen, Hungary. (S. 21-29). University of Debrecen. http://webdoc.urz.uni-halle.de/dl/287/pub/ProMath2005.pdf

Vancouver

Fritzlar T. What does it mean to be sensitive for the complexity of (problem oriented) teaching? in Kántor T, Hrsg., Problem solving in mathematics education: Proceedings of ProMath Conference 08.- 11.09.2005 at the University Debrecen, Hungary.. Debrecen: University of Debrecen. 2006. S. 21-29

Bibtex

@inbook{8ec546bc49414577a41a3d426e9f9bc6,
title = "What does it mean to be sensitive for the complexity of (problem oriented) teaching?",
abstract = "Teaching is complex. And often requested problem oriented mathematics instruction is even more complex than traditional instruction. From that special demands on the teacher and because of that on teacher education arise. At least teacher education at university should include attempts to sensitize becoming teachers for the complexity of (problem oriented) mathematics instruction first. For development and testing of new complementing elements of education, there has to be constructed a diagnostic instrument and to be elaborated more precisely, what is meant by sensitivity for complexity. First results will be given in this article.",
keywords = "Didactics of Mathematics",
author = "Torsten Fritzlar",
year = "2006",
language = "English",
isbn = "963-472-977-0",
pages = "21--29",
editor = "T{\"u}nde K{\'a}ntor",
booktitle = "Problem solving in mathematics education",
publisher = "University of Debrecen",
address = "Hungary",
note = "6th International ProMath Conference - ProMath 2005, ProMath 2005 ; Conference date: 08-09-2005 Through 11-09-2005",
url = "http://webdoc.urz.uni-halle.de/dl/287/pub/ProMath2005.pdf, http://promath.org/formermeetings.html",

}

RIS

TY - CHAP

T1 - What does it mean to be sensitive for the complexity of (problem oriented) teaching?

AU - Fritzlar, Torsten

N1 - Conference code: 6

PY - 2006

Y1 - 2006

N2 - Teaching is complex. And often requested problem oriented mathematics instruction is even more complex than traditional instruction. From that special demands on the teacher and because of that on teacher education arise. At least teacher education at university should include attempts to sensitize becoming teachers for the complexity of (problem oriented) mathematics instruction first. For development and testing of new complementing elements of education, there has to be constructed a diagnostic instrument and to be elaborated more precisely, what is meant by sensitivity for complexity. First results will be given in this article.

AB - Teaching is complex. And often requested problem oriented mathematics instruction is even more complex than traditional instruction. From that special demands on the teacher and because of that on teacher education arise. At least teacher education at university should include attempts to sensitize becoming teachers for the complexity of (problem oriented) mathematics instruction first. For development and testing of new complementing elements of education, there has to be constructed a diagnostic instrument and to be elaborated more precisely, what is meant by sensitivity for complexity. First results will be given in this article.

KW - Didactics of Mathematics

M3 - Article in conference proceedings

SN - 963-472-977-0

SP - 21

EP - 29

BT - Problem solving in mathematics education

A2 - Kántor, Tünde

PB - University of Debrecen

CY - Debrecen

T2 - 6th International ProMath Conference - ProMath 2005

Y2 - 8 September 2005 through 11 September 2005

ER -

Weitere Publikationen dieser Person(en)

Zu Fähigkeiten von Grundschulkindern im Umgang mit Verhältnissen

Rink, R. & Fritzlar, T., 2010, Beiträge zum Mathematikunterricht 2010: Vorträge auf der 44. Tagung für Didaktik der Mathematik. Lindmeier, A. & Ufer, S. (Hrsg.). WTM - Verlag für wissenschaftliche Texte und Medien, Band 2. S. 693-696 4 S.

Publikation: Beiträge in SammelwerkenAufsätze in KonferenzbändenForschung

Doppelpräsentationen und mathematische Begabung im Grundschulalter: theoretische Aspekte und praktische Erfahrungen

Fritzlar, T. & Heinrich, F., 2010, Kompetenzen mathematisch begabter Grundschulkinder erkunden und fördern. Fritzlar, T. & Heinrich, F. (Hrsg.). Offenburg: Mildenberger Verlag, S. 25-44 20 S.

Publikation: Beiträge in SammelwerkenAufsätze in SammelwerkenForschung

Einführung

Fritzlar, T. & Heinrich, F., 2010, Kompetenzen mathematisch begabter Grundschulkinder erkunden und fördern. Fritzlar, T. & Heinrich, F. (Hrsg.). Offenburg: Mildenberger Verlag, S. 5-10 6 S.

Publikation: Beiträge in SammelwerkenAndere (Vor- und Nachworte ...)Forschung

Ein Wochenendcamp als fächerverbindendes Förderangebot für interessierte und begabte Grundschulkinder

Ertel, H. & Fritzlar, T., 2010, Kompetenzen mathematisch begabter Grundschulkinder erkunden und fördern. Fritzlar, T. & Heinrich, F. (Hrsg.). Offenburg: Mildenberger Verlag, S. 183-201 19 S.

Publikation: Beiträge in SammelwerkenAufsätze in SammelwerkenForschung

Kompetenzen mathematisch begabter Grundschulkinder erkunden und fördern

Fritzlar, T. (Herausgeber*in), 2010, 1. Aufl. Aufl. Offenburg: Mildenberger Verlag. 208 S.

Publikation: Bücher und AnthologienSammelwerke und AnthologienForschung

Links

Zuletzt angesehen

Aktivitäten

  1. Trajectory based Analysis and visualisation of coherent flow structures in stirred tank reactors
  2. Evolutionary clustering of Lagrangian trajectories in turbulent convection
  3. Conference of SIG4 'Higher Education' & SIG17 'Qualitative and Quantitative Approaches to Learning and Instruction'
  4. Potentiale entdecken - Qualität sichern!
  5. Efficacy of an Internet-based problem-solving training for teachers: Results of a randomized controlled trial.
  6. Workshop on Stochastic Models, Statistics and Their Applications 2017
  7. Conference on intuition and affect in risk perception and decision making - 2006
  8. Frame-based Matrix Factorizations
  9. Syntaxbasierte Großschreibung
  10. Workshop of the Nordic Research Network in Memory Studies - 2013
  11. Coauthoring an interorganizational collaboration: Exploring multi-voicedness and introducing spatiotemporal orientations
  12. THE EUROPEAN CONFERENCE ON MACHINE LEARNING & PRINCIPLES AND PRACTICE OF KNOWLEDGE DISCOVERY IN DATABASES 2017
  13. The Linguistic Complexity of Test Items: Differential Effects for Students With Low and High Language Proficiency
  14. Ars Electronica
  15. Assessing cognitive abilities for L2 learning: A review of accessible tools
  16. Presentation of the paper entitled "Design of a Real Time Path of Motion Control for Manufacturing Applications"
  17. Setting up camp: emerging organizing around contested issues in the context of covert and illegal living on campsites
  18. Experiences on the theme of actions for sustainable development in the field of educational systems

Publikationen

  1. Biodiversity-multifunctionality relationships depend on identity and number of measured functions
  2. Conceptual understanding of complex components and Nyquist-Shannon sampling theorem
  3. Homogenization methods for multi-phase elastic composites with non-elliptical reinforcements
  4. Identification of conductive fiber parameters with transcutaneous electrical nerve stimulation signal using RLS algorithm
  5. Artificial intelligence
  6. Early Detection of Faillure in Conveyor Chain Systems by Wireless Sensor Node
  7. Design, Modeling and Control of an Over-actuated Hexacopter Tilt-Rotor
  8. A framework for business model development in technology-driven start-ups
  9. Introducing split orders and optimizing operational policies in robotic mobile fulfillment systems
  10. Comparison of Bio-Inspired Algorithms in a Case Study for Optimizing Capacitor Bank Allocation in Electrical Power Distribution
  11. Managing complexity in automative production
  12. Designing and evaluating blended learning bridging courses in mathematics
  13. What Makes for a Good Theory? How to Evaluate a Theory Using the Strength Model of Self-Control as an Example
  14. Do connectives improve the level of understandability in mathematical reality-based tasks?
  15. Executive function and Language Learning
  16. An error management perspective on audit quality
  17. TARGET SETTING FOR OPERATIONAL PERFORMANCE IMPROVEMENTS - STUDY CASE -
  18. Measuring cognitive load with subjective rating scales during problem solving
  19. The temporal pattern of creativity and implementation in teams
  20. Conceptions of problem solving mathematics teaching
  21. A reference architecture for the integration of EMIS and ERP-Systems
  22. The erosion of relational values resulting from landscape simplification
  23. Parametric finite element model and mechanical characterisation of electrospun materials for biomedical applications
  24. What´s in a net? or: The end of the average