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Kortenkamp, U., & Kreis Y. (2008).  Intergeo – Interoperable Interactive Geometry for Europe. Beiträge zum Mathematikunterricht. Vorträge auf der 42. Tagung für Didaktik der Mathematik in Budapest.
Kortenkamp, U. (2005).  Guidelines for Using Computers Creatively in Mathematics Education. (Arganbright, D., Ed.).Proceedings of the 1st KAIST Symposium on Enhancing University Mathematics Teaching. PDF icon Kortenkamp-GUCCME-2005a.pdf (643.19 KB)
Kortenkamp, U. (2009).  Homogene Koordinaten. mathematik lehren. 154,
Kortenkamp, U. (2012).  Interaktives Whiteboard, iPad & Co. – das Klassenzimmer der Zukunft. PDF icon Kortenkamp-IWICKZ-2012a.pdf (1.35 MB)
Kortenkamp, U. (2001).  The future of mathematical software. Proceedings of MTCM 2000. PDF icon Kortenkamp-FMS-2001a.pdf (199.43 KB)
Kortenkamp, U., & Rolka K. (2009).  Using Technology in the Teaching and Learning of Box Plots. (Durand-Guerrier, V., Soury-Lavergne S., & Arzarello F., Ed.).Proceedings of the Sixth Congress of the European Society for Research in Mathematics Education. January 28th - February 1st 2009, Lyon (France). PDF icon KortenkampRolka-UTTLP-2009a.pdf (456.52 KB)
Kortenkamp, U., Richter-Gebert J., Sarangarajan A., & Ziegler G. M. (1997).  Extremal properties of 0/1-polytopes. Discrete & Computational Geometry. 17, 439–448.
[Gast] (2008).  Informatische Ideen im Mathematikunterricht. Bericht über die 23. Arbeitstagung des Arbeitskreises Mathematikunterricht und Informatik. (Kortenkamp, U., Weigand H-G., & Weth T., Ed.).
Kortenkamp, U. H., & Richter-Gebert J. (1999).  Shrink-Wrapped Java in Education.
Kuzle, A. (2012).  Investigating and communicating technology mathematics problem solving experience of two preservice teachers. Acta Didactica Napocensia. 5(1), 1–10.
Kuzle, A. (Submitted).  Nature of metacognition in a dynamic geometry environment. LUMAT – Research and Practice in Math, Science and Technology Education.
Kuzle, A. (2013).  Patterns of metacognitive behavior during mathematics problem-solving in a dynamic geometry environment. International Electronic Journal of Mathematics Education. 8(1), 20–40.
Kuzle, A. (2011).  Preservice teachers’ patterns of metacognitive behavior during mathematics problem solving in a dynamic geometry environment.
Kuzle, A., Pavlekovic M., Kolar-Begovic Z.., & Kolar-Super R.. (2013).  The interrelations of the cognitive, and metacognitive factors with the affective factors during problem solving. Mathematics teaching for the future . 250–260.
Kuzle, A., & Dohrmann C. (2014).  Unpacking Children's Angle "Grundvorstellungen”: The Case of Distance “Grundvorstellung” of 1° Angle. (Liljedahl, P., & Sinclare N., Ed.).PME 38. PDF icon RR_Kuzle-Dohrmann-submitted.pdf (683.57 KB)
Kuzle, A. (2012).  Preservice teachers’ patterns of metacognitive behavior during mathematics problem solving in a dynamic geometry environment. (Ludwig, M., & Kleine M., Ed.).46. Jahrestagung der Gesellschaft für Didaktik der Mathematik. 2, 513–516.
Kuzle, A. (Submitted).  Problem solving as an instructional method: The case of strategy-open problem “The treasure island problem”. LUMAT – Research and Practice in Math, Science and Technology Education.
Kuzle, A., & Artigue M. (2012).  Characterization of preservice teachers’ patterns of metacognitive behavior and the use of Geometer’s Sketchpad. The didactics of mathematics: Approaches and issues. A Hommage to Michèle Artigue.
Kuzle, A. (Submitted).  Unpacking the nature of problem solving processes in a dynamic geometry environment: Different technological effects. Journal für Mathematik-Didaktik.
L
Ladel, S., & Kortenkamp U. (Submitted).  Number concepts –- processes of internalization and externalization by the use of multi-touch technology Silke Ladel and Ulrich Kortenkamp. Early Mathematics Learning.
Ladel, S., & Kortenkamp U. (2011).  Finger-Symbol-Sets and Multi-Touch for a better understanding of numbers and operations. Proceedings of CERME 7, Rzeszow. PDF icon LadelKortenkamp-FMBUNO-2011a.pdf (598.13 KB)
Ladel, S., & Kortenkamp U. (2009).  Virtuell-enaktives Arbeiten mit der „Kraft der Fünf''. MNUprimar. PDF icon LadelKortenkamp-VAGKF-2009a.pdf (722.46 KB)
Ladel, S., & Kortenkamp U. (2013).  An activity-theoretic approach to multi-touch tools in early maths learning. The International Journal for Technology in Mathematics Education. 20, PDF icon LadelKortenkamp-ATATEMLO-ICME-2013.pdf (426.48 KB)
Ladel, S., & Kortenkamp U. (2011).  Implementation of a multi-touch-environment supporting finger symbol sets. Proceedings of CERME 7, Rzeszow. PDF icon LadelKortenkamp-IMSFSS-2011b.pdf (274.33 KB)
Ladel, S., & Kortenkamp U. (2011).  An activity-theoretic approach to multi-touch tools in early maths learning. Proceedings of ATATEMLO 2011 in Paris. PDF icon LadelKortenkamp-AAMTEML-2011a.pdf (762.62 KB)

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