Bibliography – stcse students‘ and Teachers‘ Conceptions and Science Education Full Version fv09. rtf / March 23, 2009



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Perry, G. (1992). 'It cannot be living because it does not grow'. Primary Science Review(21), 16-17 // g6,B.

Peterfalvi, B., Verin, A. (1996). Tackling conceptual obstacles to aquiring scientific knowledge in a constructivist teaching model. In A. Giordan, Girault (Ed.), The new learning models (pp. 125-134). Nice: Z'editions - les auteurs // g7,B.

Peterman, F. P. (1993). Staff development and the process of changing: A teacher's emerging constructivist beliefs about learning and teaching. In K. Tobin (Ed.), The practice of constructivism in Science Education (pp. 227-245). Washington, DC: AAAS Press // g8,CTL.

Peters, P. C. (1982). Even honors students have conceptual difficulties with physics. American Journal of Physics, 50, 501-508 // g6,P,E,M,.

Peterson, R., Treagust, D. (1998). Learning to teach primary science through problem-based learning. Science Education, 82(2), 215-237 // g7,g8,P,E,C,B,CTL.

Peterson, R. F., Treagust, D. F. , Garnett, P. J. (1986). Identifications of secondary students' misconceptions of covalent bonding and structure concepts using a diagnostic instrument. Research in Science Education, 16, 40-48 // g6,C.

Peterson, R. F., Treagust, D. F. (1988). Students' understanding of covalent bonding and structure concepts. The Australian Science Teachers Journal, 33(4), 77-81 // g6,C.

Peterson, R. F., Treagust, D. F. , Garnett, P. J. (1989). Development and application of a diagnostic instrument to evaluate grade-11 and grade-12 students' concepts of covalent bonding and structure following a course of instruction. Journal of Research in Science Teaching, 26(4), 301-314 // g4,g5,g6,C.

Peterson, R. F., Treagust, D. F. (1989). Grade-12 students' misconceptions of covalent bonding and structure. Journal of Chemical Education, 66(6), 459-460 // g5,g6,C.

Peterson, R. F., Treagust, D. F. (1989). Primary preservice teachers pedagogical reasoning skills. Occasional paper, 1-10 // g8,CTL.

Peterson, R. F., Treagust, D. F. (1992). Primary pre-service teachers' pedagogical reasoning skills. Research in Science Education, 22, 323-330 // g8,CTL.

Peterson, R. W. (1995). Synthesis and commentary: Toward a cognitive science perspective for scientific problem solving. In D. R. Lavoie (Ed.), Toward a cognitive-science perspective for scientific problem solving (pp. 295-316). Manhattan, Kansas: NARST // g1.

Peterson, S., Tytler, R. (2001). Young children's growing understanding of evaporation: Insights from a longitudinal study. In D. Psillos, Kariotoglou, P. , Tselfes, V. , Bisdikian, G. , Fassoulopoulos, G. , Hatzikraniotis, E. , Kallery, M. (Ed.), Proceedings of the Third International Conference on Science Education Research in the Knowledge Based Society, Vol. 1 (pp. 92-95). Thessaloniki, Greece: Aristotle University of Thessaloniki // g6,P,T,CHSTATE.

Petri, J., Niedderer, H. (1993). Eine Fallstudie zur Veraenderung von Schuelervorstellungen in der Atomphysik (Sek II). In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie - Probleme und Perspektiven - Vortraege auf der Tagung fuer Didaktik der Physik / Chemie in Kiel, September 1993 (pp. 298-300). Kiel: Leuchtturm-Verlag // g7,P,Q.

Petri, J., Niedderer, H. . (1994). Learning pathways in atomic physics - Case studies in upper secondary school based on a teaching approach with a Schroedinger model of the atom. Paper presented at an international seminar in Thessaloniki, 1994 // g6,g7,P,Q,.

Petri, J., Niedderer, H. . (1995). Learning pathways in atomic physics (grade 13). Paper presented at the First European Conference on Research in Science Education, Leeds, UK, April 7.-11. , 1995 // g7,P,Q,.

Petri, J. (1995). Learning pathways in atomic physics: Case studies in upper secondary school based on a teaching approach with a Schroedinger model of the atom. In D. Psillos (Ed.), European Research in Science Education II (pp. 288-296). Thessaloniki: Art of Text S. A. // g6,P,Q,LPRO.

Petri, J. (1996). Der Lernpfad eines Schuelers in der Atomphysik. Eine Fallstudie in der Sekundarstufe II. Aachen: Mainz Wissenschaftsverlag // g5,g6,g7,P,Q,AT,EN,LPRO.

Petri, J., Niedderer, H. (1996). Der Lernpfad eines Schuelers in der Atomphysik. Eine Fallstudie in der Sekundarstufe II. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie: Probleme und Perspektiven (pp. 251-253). Alsbach/Bergstrasse: Leuchtturm-Verlag // g7,P,Q,LPRO.

Petri, J., Niedderer, H. (1998). Die Rolle des Weltbildes beim Lernen vom Atomphysik - Eine Fallstudie zum Lernpfad eines Schuelers. Zeitschrift fuer Didaktik der Naturwissenschaften, 4(3), 3-18 // g7,P,Q,LPRO.

Petri, J., Niedderer, H. (1998). A Learning pathway in high-school level quantum atomic physics. International Journal of Science Education, 20(8), 1075-1088 // g7,P,Q,LPRO.

Petri, J., Niedderer, H. (1998). A learning pathway in high-school level quantum physics. International Journal of Science Education, 20(9), 1075-1088 // g6,g7,P,Q,LPRO.

Petri, J., Niedderer, H. (2001). Kognitive Schichtenstrukturen in der Atomphysik (Sek II). In R. Brechel (Ed.), Zur Didaktik der Physik und Chemie, L21 - Vortraege der Tagung fuer Didaktik der Physik / Chemie in Berlin, September 2000 (pp. 201-203). Alsbach: Leuchtturm-Verlag // g6,P,Q,LPRO.

Petri, J., Niedderer, H. (2001). Kognitive Schichtenstrukturen nach einer UE Atomphysik (Sek II). Zeitschrift fuer Didaktik der Naturwissenschaften, 7, 53-68 // g1,CON,CC,g7,P,Q,LPRO.

Petri, J., Niedderer, H. (2003). Atomic physics in upper secondary school: Layers of conceptions in individual cognitive structure. In D. Psillos, Kariotoglou, P., Tselfes, V., Hatzikraniotis, E., Fassoulopoulos, G., Kallery, M. (Ed.), Science education research in the knowledge-based society (pp. 137-144). Dordrecht, The Netherlands: Kluwer Academic Publishers // g7, P, Q, LPRO.

Petri, J., Schecker, H. (2004). physik multimedial im Einsatz in der Physikausbildung. In A. Pitton (Ed.), Chemie- und physikdidaktische Forschung und naturwissenschaftliche Bildung Band 24 (pp. 84-86). Münster: LIT Verlag // g7, MMEDIA.

Petri, J. N., H. (2001). Atomic physics in upper secondary school: Layers of conceptions in individual cognitive structure. In D. Psillos, Kariotoglou, P. , Tselfes, V. , Bisdikian, G. , Fassoulopoulos, G. , Hatzikraniotis, E. , Kallery, M. (Ed.), Proceedings of the Third International Conference on Science Education Research in the Knowledge Based Society, Vol. 2 (pp. 579-581). Thessaloniki, Greece: Aristotle University of Thessaloniki // g7,P,Q,LPRO.

Petrosino, A., Schwartz, D. (1995). The Bernoulli effect: Initial study of open and closed systems. Poster presented at the Annual Meeting of the National Association for Research in Science Teaching (NARST), San Francisco, April 1995 // g6,P,M.

Petrosino, A. J. (2004). Integrating curriculum, instruction, and assessment in project-based instruction: A case study of an experienced teacher. Journal of Science Education and Technology, 13(4), 447-460 // g7, P, AS, INQUIRY, LAB.

Pettersen, S. (2005). The relevance of teaching about the ''nature of science'' to students of the health sciences. In K. Boersma, M. Goedhart, O. De Jong & H. Eijkelhof (Eds.), Research and the quality of science education (pp. 269-282). Dordrecht: Springer // g7, B, HEALTH, CSC.

Peuckert, J., Fischler, H. , Lichtfeldt, M. (1997). Die Teilchenstruktur der Materie im Physikunterricht der Sekundarstufe I (Teil 3): Stabilitaet und Auspraegung von Vorstellungen zum Atombegriff. In F. D. d. P. Deutsche Physikalische Gesellschaft (Ed.), Didaktik der Physik (pp. 584-589). Berlin: Technische Universitaet Berlin, Institut fuer Fachdidaktik Physik und Lehrerbildung // g6,P,AT,LPRO.

Peuckert, J. (1997). Wege zum Atombegriff III: Stabilitaet von Schuelervorstellungen. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie. Probleme und Perspektiven (pp. 355-357). Alsbach: Leuchtturm-Verlag // g7,P,AT,LPRO.

Peuckert, J., Rothenhagen, A. , Sylvester, U. (1999). Concept mapping - lernen wir unsere Schueler kennen! Physik in der Schule, 37(2), 122-128 // g5,g7,P.

Peuckert, J., Fischler, H. (1999). Concept maps as a tool for investigating and analyzing the development of students' conceptions. In M. Komorek, Behrendt, H. , Dahncke, H. , Duit, R. , Graeber, W. , Kross, A. (Ed.), Research in Science Education - Past, Present, and Future Vol.1 (pp. 263-265). Kiel: IPN Kiel // g5.

Peuckert, J., Fischler, H. , Seifert, S. (1999). Stabilitaet und Auspraegung kognitiver Strukturen zum Atombegriff. In R. Brechel (Ed.), Zur Didaktik der Physik und Chemie, Probleme und Perspektiven - Vortraege auf der Tagung fuer Didaktik der Physik / Chemie in Essen, Sept. 1998 (pp. 358-360). Alsbach: Leuchtturm-Verlag // g6,P,AT.

Peuckert, J. (2001). Propositionalisierung von Videodaten zur Analyse kognitiver Zustaende und Entwicklungen. In S. v. Aufschnaiter, Welzel, M. (Ed.), Nutzung von Videodaten zur Untersuchung von Lehr-Lern-Prozessen (pp. 75-88). Muenster: Waxmann // g7,P,AT,LPRO,VIDEO.

Peuckert, J. (2006). Stabilität und Ausprägung von Teilchenvorstellungen. In H. Fischler & C. S. Reiners (Eds.), Die Teilchenstruktur der Materie im Physik- und Chemieunterricht (pp. 77-108). Berlin: Logos Verlag Berlin // g6, P, C, AT.

Pfligersdorffer, G. (2002). Wie Schueler die Spielsimulation "fish banks" erleben.

Zwischen komplexer Dynamik und einem oekologisch sozialen Dilemma. Zeitschrift fuer Didaktik der Naturwissenschaften, 8, 103-118 // g7, B, ECOLOGY, MMEDIA.

Pfuhl Rodrigues, D. M. A. v. (1980). Notions of physical laws in childhood. Science Education, 64(1), 59-84 // g6,P,M.

Pfundt, H. (1975). Urspruengliche Erklaerungen der Schueler fuer chemische Vorgaenge. Der Mathematische und Naturwissenschaftliche Unterricht, 28, 157-162 // g7,C.

Pfundt, H. (1978). Zur Einfuehrung der Atomhypothese. In J. Weninger, Pfundt, H. (Ed.), Atommodelle im naturwissenschaftlichen Unterricht, Band 2 (pp. 10-24). Weinheim: Beltz // g7,C,P,AT.

Pfundt, H. (1981). Das Atom - letztes Teilungsstueck oder erster Aufbaustein? Zu den Vorstellungen, die sich Schueler vom Aufbau der Stoffe machen. chimica didactica, 7, 75-94 // g6,P,AT,C.

Pfundt, H. (1981). Die Diskrepanz zwischen muttersprachlichem und wissenschaftlichem "Weltbild": Ein Problem der Naturwissenschaftsdidaktik. In R. Duit, Jung, W. , Pfundt, H. (Ed.), Alltagsvorstellungen und naturwissenschaftlicher Unterricht (pp. 114-131). Koeln: Aulis // g4.

Pfundt, H. (1981). Fachsprache und Vorstellungen der Schueler - dargestellt an Beispielen aus dem IPN-Lehrgang "Stoffe und Stoffumbildungen". In R. Duit, Jung, W. , Pfundt, H. (Ed.), Alltagsvorstellungen und naturwissenschaftlicher Unterricht (pp. 161-181). Koeln: Aulis // g4.

Pfundt, H. (1981). Pre-instructional conceptions about substances and transformations of substances. In W. Jung, Pfundt, H. , Rhoeneck, C. von (Ed.), Proceedings of the international workshop on "Problems Concerning Students' Representation of Physics and Chemistry Knowledge" (pp. 320-341). Ludwigsburg: Paedagogische Hochschule // g6,C.

Pfundt, H. (1982). Untersuchungen zu den Vorstellungen, die Schueler vom Aufbau der Stoffe entwickeln. Der Physikunterricht, 16(1), 51-65 // g6,P,AT.

Pfundt, H. (1982). Vorunterrichtliche Vorstellungen von stofflicher Veraenderung. chimica didactica, 8, 161-180 // g6,C,.

Philips, W. C. (1991). Earth science misconceptions. The Science Teacher, 58(2), 21-23 // g6,P,AS.

Phillips, D. (1996). Response to Ernst von Glasersfeld. Educational Researcher, 25(6), 20 // g1,CON.

Phillips, D. (1997). Coming to grips with radical social constructivisms. Science & Education, 6(1-2), 85-104 // g1,CON,SCON.

Phillips, D. C. (2000). Constructivism in education: Opinions and second opinions on controversal issues. Chicago, IL: The National Society for the Study of Education // g1,CON.

Phillips, D. C. (2000). An opinionated account of the construcivist landscape. In D. C. Phillips (Ed.), Constructivism in education: Opinions and second opinions on controversal issues (pp. 1-16). Chicago, IL: The National Society for the Study of Education // g1,CON.

Phillips, M., Finkelstein, D., & Wever-Friedrichs, S. (2007). School site to museum floor: How informal science institutions work with schools. International Journal of Science Education, 29(12), 1489-1508 // g7, INFORMAL.

Piaget, J. (1930). The childs conception of physical causality. London: Kegan Paul // g6.

Piaget, J. (1950). Psychologische Betrachtungen ueber den Unterricht der Naturwissenschaft an der Grundschule. Paedagogischer Wegweiser III, Sonderheft // g1.

Piaget, J., Inhelder, B. (1969). Die Entwicklung der physikalischen Mengenbegriffe beim Kinde. Stuttgart: Klett // g6.

Piaget, J. (1971). Biology and knowledge. Edinburgh: University Press // g3.

Piaget, J. (1971). The childs conception of the world. London: Routledge & Kegan Paul // g1.

Piaget, J., Inhelder, B. (1972). Die Psychologie des Kindes. Olten, Freiburg/Brsg.: Walter // g1.

Piaget, J. (1972). Intellectual evolution from adolescence to adulthood. Human Development, 15, 1-12 // g1.

Piaget, J. (1972). Physical world of the child. Physics Today, 25(6), 23-27 // g3.

Piaget, J. (1972). The principles of genetic epistemology. New York: Basic Books // g3.

Piaget, J. (1973). Die Entwicklung des Erkennens II. Das physikalische Denken. Stuttgart: Klett // g1,g6,P.

Piaget, J., Szeminska, A. (1973). La formation de la notion de force. Kap. III: Le probleme de la remontee d'use bille apres une descente. Paris: Presses Universitaire // g6,P,M.

Piaget, J., De Lannoy, J. (1973). La formation de la notion de force. Kap. V: La transmission de l'energie entre deux pendules relies par un fil. Paris: Presses Universitaire // g6,P,M,EN.

Piaget, J. (1974). Understanding causality. New York: W. W. Norton & Co. Inc. // g1.

Piaget, J., Inhelder, B. (1975). The origin of the idea of chance in children. London: Routledge & Kegan Paul // g6,STAT,IRR.

Piburn, M. D. (1990). Reasoning about logical propositions and success in science. Journal of Research in Science Teaching, 27(9), 887-900 // g6,.

Pietrocola, M., Zylbersztajn, A. (1999). The use of the principle of relativity in the interpretation of phenomena by undergraduate physics students. International Journal of Science Education, 21(3), 261-276 // g6,P,R.

Pietzner, V. (2006). Computergestützte Einführung in die Elektrochemie. In A. Pitton (Ed.), Lehren und Lernen mit neuen Medien (Vol. 26, pp. 48-50). Münster: LIT Verlag // g7, C, MMEDIA.

Pilatou, V., Stavridou, H. (2001). The electric current on its way to our house and the parallel connection of electric appliances: Primary students' representations (11-12). In D. Psillos, Kariotoglou, P. , Tselfes, V. , Bisdikian, G. , Fassoulopoulos, G. , Hatzikraniotis, E. , Kallery, M. (Ed.), Proceedings of the Third International Conference on Science Education Research in the Knowledge Based Society, Vol. 2 (pp. 742-744). Thessaloniki, Greece: Aristotle University of Thessaloniki // g6,P,E.

Pilatou, V., Stravidou, H. (2003). The electric current on its way to our house and the parallel connection of the electric appliances: Primary students' (11-12) representations. In D. Psillos, Kariotoglou, P., Tselfes, V., Hatzikraniotis, E., Fassoulopoulos, G., Kallery, M. (Ed.), Science education research in the knowledge-based society (pp. 145-153). Dordrecht, The Netherlands: Kluwer Academic Publishers // g7, P, E, CIRC.

Pilatou, V., Stravidou, H. (2004). How primary school students understand mains electicity and its distribution. International Journal of Science Education, 26(6), 697-716 // g7, P, E.

Pilot, A., & Bulte, A. M. W. (2006). The use of ''contexts'' as a challenge for the chemistry curriculum: Its successes and the need for further development and understanding. International Journal of Sience Education, 28(9), 1087-1112 // g1, C.

Pimbblet, K. A. (2002). Ex-nihilo: Obstacles surrounding teaching the standard model. Physics Education, 37(6), 512-515 // g6, g7, P, AS.

Pinarbasi, T., & Canpolat, N. (2003). Students' understanding of solution chemistry concepts. Journal of Chemical Education, 80(11), 1328-1332 // g6, C.

Pinarbasi, T., Canpolat, N., Bayrakceken, S., & Geban, Ö. (2006). An investigation of effectiveness of conceptual change text-oriented instruction on students' understanding of solution concepts. Research in Science Education, 36(4), 313-335 // g7, C.

Pine, J., Aschbacher, P., Roth, E., Jones, M., McPhee, C., Martin, C., et al. (2006). Fifth graders' science inquiry abilities: A comparative study of students in hands-on and textbook curricula. Journal of Research in Science Teaching, 43(5), 467-484 // g7, INQUIRY.

Pines, A., Leith, S. (1981). What is concept learning in science ? Theory, recent research and some teaching suggestions. The Australian Science Teachers Journal, 27(3), 15-20 // g1.

Pines, L., Novak, J. D. , Posner, G. J. , Vankirk, J. (1978). The clinical interview: A method for evaluating cognitive structure. Ithaca, N. Y.: Cornell University // g5.

Pines, L. (1980). Protocols as indicators of cognitive structure: A cautionary note. Journal of Research in Science Teaching, 17(4), 361-362 // g5.

Pines, L., West, L. (1983). A framework for conceptual change with special reference to misconceptions. In H. Helm, Novak, J. D. (Ed.), Proceedings of the International Seminar "Misconceptions in Science and Mathematics" (pp. 47-52). Ithaca, N. Y.: Cornell University // g1.

Pines, L., Novak, J. D. (1985). The interaction of audio-tutorial instruction with student prior knowledge: A proposed qualitative, case study methodology. Science Education, 69, 213-228 // g5.

Pines, L. (1985). Towards a taxonomy of conceptual relations and the implications for the evaluation of cognitive structure. In L. West, Pines, L. (Ed.), Cognitive structure and conceptual change (pp. 101-116). Orlando: Academic Press // g1,g4.

Pines, L., West, L. (1986). Conceptual understanding and science learning: An interpretation of research within a sources of knowledge framework. Science Education, 70(5), 583-604 // g1.

Pinkerton, K. D. (2005). Learning from mistakes. The Physics Teacher, 43(8), 510-513 // g7, P.

Pinto, R., Gutierrez, R. , Couso, D. (2001). Teaching about energy conservation ad degradation. Using research into teacher transformation to design material for teacher training. In D. Psillos, Kariotoglou, P. , Tselfes, V. , Bisdikian, G. , Fassoulopoulos, G. , Hatzikraniotis, E. , Kallery, M. (Ed.), Proceedings of the Third International Conference on Science Education Research in the Knowledge Based Society, Vol. 1 (pp. 152-162). Thessaloniki, Greece: Aristotle University of Thessaloniki // g8,P,E,N,IRR,CTL.

Pinto, R., Ametller, J. (2002). Students' difficulties in reading images. Comparing results from four national research groups. International Journal of Science Education, 24(3), 333-341 // g6,IMAGES.

Pintó, R. (2003). A European research project for new challenges in science teacher training. In D. Psillos, Kariotoglou, P., Tselfes, V., Hatzikraniotis, E., Fassoulopoulos, G., Kallery, M. (Ed.), Science education research in the knowledge-based society (pp. 435-446). Dordrecht, The Netherlands: Kluwer Academic Publishers // g8, CTL, CSC.

Pintó, R. (2005). Introducing curriculum innovations in science: Identifying teachers' transformations and the design of related teacher education. Science Education, 89(1), 1-12 // g8, g9.

Pintó, R., Couso, D., & Gutierrez, R. (2005). Using research on teachers' transformations of innovations to inform teacher education. The case of energy degradation. Science Education, 89(1), 38-55 // g8, P, EN, CTL, g9.

Pintrich, P. R., Marx, R. W. , Boyle, R. A. (1993). Beyond cold conceptual change: The role of motivational beliefs and classroom contextual factors in the process of conceptual change. Review of Educational Research, 63(2), 167-199 // g1.

Pintrich, P. R. (1999). Motivational beliefs as resources for and constraints on conceptual change. In W. Schnotz, Vosniadou, S. , Carretero, M. (Ed.), New perspectives on conceptual change (pp. 33-50). Oxford, UK: Pergamon // g1,CC,AFF,CON.

Piperakis, S. M., Papadimitriou, V., Piperakis, M. M., & Zisis, P. (2003). Understanding Greek primary school children's comprehension of sun exposure. Journal of Science Education and Technology, 12(2), 135-142 // g6, B, STS.

Piperakis, S. M., Sotiriou, A., Georgiou, E., Thanou, A., & Zafiropoulou, M. (2004). Understanding nutrition: A study of Greek primary school children dietary habits, before and after classroom nutrition intervention. Journal of Science Education and Technology, 13(1), 129-136 // g7, B, PHYSIO.

Piquette, J. S., & Heikkinen, H. W. (2005). Strategies reported used by instructors to address student alternate conceptions in chemical equilibrium. Journal of Research in Science Teaching, 42(10), 1112-1134 // gp, CC, g8, CTL.

Pittman, E. (1994). Children's ideas about colour and light. In P. L. Lijnse (Ed.), European research in Science Education - Proceedings of the first Ph. D. Summerschool (pp. 251-254). Utrecht: CDß Press, Centrum voor ß-Didactiek // g6,O.

Pittman, K. M. (1999). Student-generated analogies: Another way of knowing? Journal of Research in Science Teaching, 36(1), 1-22 // g7,B,ANA.

Placek, W. A. (1987). Preconceived knowledge of certain Newtonian concepts among gifted and non-gifted eleventh grade physics students. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. III (pp. 386-391). Ithaca: Cornell University // g6,P,M.

Plakitsi, K., Kokkotas, P. , Dracopoulou, M. , Vlachos, I. (1999). Conceptual network based on pupils' conceptions of time. In M. Komorek, Behrendt, H. , Dahncke, H. , Duit, R. , Graeber, W. , Kross, A. (Ed.), Research in Science Education - Past, Present, and Future Vol.1 (pp. 128-130). Kiel: IPN Kiel // g6,TIME.

Planinic, M., Boone, W. J., Krsnik, R., & Beilfuss, M. L. (2006). Exploring alternative conceptions from Newtonian dynamics and simple DC circuits: Links between item difficulty and item confidence. Journal of Research in Science Teaching, 43(2), 150-171 // g6, P, E, M, FORCE.

Ploetzner, R. (1993). How misconceptions affect formal physics Problem solving: Model-based predictions and empirical observations. In Proceedings of the Seventeenth Annual Meeting of the Cognitive Science Society (pp. 1-5). Hillsdale, NJ: Lawrence Erlbaum Associates // g6,P,M.

Ploetzner, R., VanLehn, K. (1997). The acquisition of qualitative physics knowledge during textbook-based physics training. Cognition and Instruction, 15(2), 169-205 // g7,P,M,FORCE.

Ploetzner, R. (1998). Flexibilitaet im Problemloesen und Lernen. Freiburg: Pabst // g1,COSC,PROSOL,g6,P,M.

Ploetzner, R., Kneser, C. (1998). Steps towards the acquisition of expertise: Shifting the focus from quantitative to qualitative problem representations during collaborative problem solving. In M. A. Gernsbacher, Derry, S. J. (Ed.), Proceedings of the twentieth annual conference of the cognitive science society (pp. 842-847). Madison: University of Wisconsin // g6,P,M,PROSOL.



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