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

Yu, F.-Y., & Liu, Y.-H. (2005). Potential values of incorporating a multiple-choice question construction in physics experimentation instruction. International Journal of Science Education, 27(11), 1319-1335 // g7, P, LAB.

Yu, J. (2001). Conceptual oriented college introductory physics teaching: Gains and recommendations. In R. Pinto, Surinach, S. (Ed.), Physics Teacher Education Beyond 2000 (pp. 309-312). Paris: Elsevier // g7,P.

Yu, S.-M. (2001). Practical work in college science teaching: Situated learning approach. 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. 699-701). Thessaloniki, Greece: Aristotle University of Thessaloniki // g7,LAB,VIDEO.

Yuenyong, C., Jones, A., & Yutakom, N. (2008). A comparison of Thailand and New Zealand students' ideas about energy related to technological and societal issues. International Journal of Science and Mathematics Education, 6(2), 293-311 // g6, P, EN, STS.

Yung, B. H. W., & Tao, P. K. (2004). Advancing pupils within the motivational zone of proximal development: A case study in science teaching. Research in Science Education, 34(4), 403-426 // g7, DISCOURSE, AFF.

Yung, B. H. W., Wong, S. L., Cheng, M. W., Hui, C. S., & Hodson, D. (2007). Tracking pre-service teachers' changing conceptions of good science teaching: The role of progessive reflection with the same video. Research in Science Education, 37(3), 239-259 // g8, CTL, VIDEO.

Yürük, N. (2007). A case study of one student's metaconceptual processes and the change in her alternative conceptions of force and motion. Eurasia Journal of Mathematics, Science and Technology Education, 3(4), 305-325 // g7, P, M, FORCE, GC, LPRO.

Zablotskii, V. A., Mamalui, Y. A. , Polyakova, T. A. (1992). A new method of evaluating pupils' physics knowledge and developing their imaginative thinking. Physics Education, 27(5), 251-253 // g5.

Zacharia, Z. (2003). Beliefs, attitudes, and intentions of science teachers regarding the educational use of computer simulations and inquiry-based experiments in physics. Journal of Research in Science Teaching, 40(8), 792-823 // g8, CTL.

Zacharia, Z. C., Olympiou, G., & Papaevripidou, M. (2008). Effects of experimenting with physical and virtual manipulatives on students' conceptual understanding in heat and temperature. Journal of Research in Science Teaching, 45(9), 1021-1035 // g6, P, LAB, MMEDIA, T.

Zacharias, Z. (2001). Effects of suding interactive computer-based simulations, before and after laboratory, inquiry-based learning, on students' conceptual understanding in physics. 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. 702-705). Thessaloniki, Greece: Aristotle University of Thessaloniki // g7,MMEDIA.

Zaiane, M. N. (2001). Conceptions of tunesian pupils and students about radiation: Energetic analysis. 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. 706-708). Thessaloniki, Greece: Aristotle University of Thessaloniki // g6,P,E,RADIATION.

Zaim-Idrissi, K., Desautels, J. , Larochelle, M. (1993). "The map is the territory!" The viewpoint of biology students on the theory of evolution. The Alberta Journal of Educational Research, 39(1), 59-72 // g6,B.

Zaim-Idrissi, K., Desautels, J. , Larochelle, M. (1993). "The map is the territory!" The viewpoints of biology students on the theory of evolution. The Alberta Journal of Educational Research, 39(1), 59-72 // g6,B.

Zajchowski, R., Martin, J. (1993). Differences in the problem solving of stronger and weaker novices in physics: Knowledge, strategies, or knowledge structure? Journal of Research in Science Teaching, 30(5), 459-470 // g6,P,M,.

Zamora, S. E., Guerra, M. (1993). Misconceptions about cells. In J. Novak (Ed.), Proceedings of the Third International Seminar on Misconceptions and Educational Strategies in Science and Mathematics. Ithaca, New York: Cornell University (distributed electronically) // g6,B.

Zana, B. (1990). De la fiction a la realite: L'exemple des robots. In A. Giordan, Martinand, J. L. , Souchon, C. (Ed.), Actes JIES XII (pp. 361-371). Chamonix: Centre Jean Franco // g6.

Zander, S., & Brünken, R. (2006). Lernen mit Neuen Medien in den Naturwissenschaften. In A. Pitton (Ed.), Lehren und Lernen mit neuen Medien (Vol. 26, pp. 15-17). Münster: LIT Verlag // g1, MMEDIA.

Zangara, R., Leone, C. , Burlon, R. (2000). Assessing student learning of Newton's laws: The active learning laboratory. In L. Xingkai, Kaihua, Z (Ed.), Proceedings of the '99 International Conference of Physics Teachers and Educatiors (pp. 216-219). Guilin, China: Guangxi Normal University Press // g7,P,M,FORCE,LAB.

Zaratiadou, E., Georgiadou, A. , Tsaparlis, G. (1995). A comparative study of logical and rote methods of solving stoichiometry problems in lower high school. In R. Janiuk (Ed.), Proceedings of the 3rd European Conference on Research in Chemical Education (pp. 314-317). Lublin-Kazimierz, Poland: Maria Curie-Sklodowska University // g6,C.

Za'rour, G. I. (1975). Science misconceptions among certain groups of students in Lebanon. Journal of Research in Science Teaching, 12(4), 385-391 // g6.

Za'rour, G. I. (1976). Interpretation of natural phenomena by Lebanese school children. Science Education, 60(2), 277-287 // g6.

Zastrow, M. U., Kirstein, J. (2001). Interactive experiment instructional manual - a new concept for lab preparation. 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. 757-759). Thessaloniki, Greece: Aristotle University of Thessaloniki // g7,LAB,VIEDO.

Zee, E. H. v. (1999). Preparing teachers as researchers in courses on methods of teaching science. Journal of Research in Science Teaching, 35(7), 791-810 // g8,CTL.

Zee, E. H. v., Iwasyk, M. , Kurose, A. , Simpson, D. , Wild, J. (2001). Student and teacher questioning during conversations about science. Journal of Research in Science Education, 38(2), 159-190 // g7,DISCOURSE.

Zee, E. H. v., Roberts, D. (2001). Using pedagogical inquiries as a basis for learning to teach: Prospective teachers' reflections upon positive science learning experiences. Science Education, 85(6), 733-757 // g8, CTL.

Zee, E. v., McDermott, L. C. (1987). Investigation of student difficulties with graphical representations in physics. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. III (pp. 531-539). Ithaca: Cornell University // g6,P.

Zee, E. v., Corey, V. , Minstrell, J. , Simpson, D. , Stimpson, V. (1992). Student questioning during a cognitive approach to physics instruction. Paper presented at the annual meeting of the National Association for Research on Science Teaching, Boston, Massachusetts, 1-32 // g7,P,M,.

Zee, E. v., Wild, J. , Flanagan, P. (1993). Relation between teacher and student questioning during conversations about the moon. In J. Novak (Ed.), Proceedings of the Third International Seminar on Misconceptions and Educational Strategies in Science and Mathematics. Ithaca, New York: Cornell University (distributed electronically) // g6,P,AS.

Zee, E. v., Minstrell, J. (1997). Reflective discourse: Developing shared understandings in a physics classroom. International Journal of Science Education, 19(2), 209-228 // g7,P,M,FORCE,DISCOURSE.

Zee, E. v., Minstrell, J. (1997). Using questioning to guide student thinking. The Journal of the Learning Sciences, 6(2), 227-269 // g7,DISCOURSE.

Zee, E. v. (1998). Analysis of a student-generated inquiry discussion about the moon. Occasional paper, University of Maryland, 1998, 1-24 // g7,P,AS,DISCOURSE.

Zee, E. v. (1998). Development of a program to foster research by elementary school teachers on their science teaching practices. Occasional paper, University of Maryland, 1998, 1-12 // g8.

Zee, E. v., Iwasyk, M. , Kurose, A. , Simpson, D. , Wild, J. (1998). Student and teacher questioning during conversations about science. Occasional paper, University of Maryland, 1998, 1-17 // g7,DISCOURSE.

Zeidler, D. (1997). The central role of fallacious thinking in Science Education. Science Education, 81(4), 483-496 // g1,CC,CON.

Zeidler, D. (2004). Morality and socioscientific issues in science education: Current research and practice. Paper presented at the NARST Conference 2004, VANCOUVER // g1.

Zeidler, D. L., Lederman, N. G. (1989). The effect of teachers' language on students' conceptions of the nature of science. Journal of Research in Science Teaching, 26(9), 771-783 // g6,g8,CSC.

Zeidler, D. L., Lederman, N. G. , Taylor, S. C. (1992). Fallacies and student discourse: Conceptualizing the role of critical thinking in Science Education. Science Education, 76(4), 437-450 // g6,CSC.

Zeidler, D. L., Walker, K. A., Ackett, W. A., Simmons, M. L. (2002). Tangled up in views: Beliefs in the nature of science and responses to socioscientific dilemmas. Science Education, 86(3), 343-367 // g7, CSC.

Zeidler, D. L., Sadler, T. D., Simmons, M. L., & Howes, E. V. (2005). Beyond STS: A research-based framework for socioscientific issues education. Science Education, 89(3), 357-377 // g1, STS.

Zeilik, M., Schau, C. , Mattern, N. (1998). Misconceptions and their change in university-level astronomy courses. The Physics Teacher, 36(2), 104-107 // g6,g7,P,AS.

Zeilik, M., Bisard, W. (1999/2000). Conceptual change in introductory-level astronomy courses: Tracking misconceptions to reveal which - and how much - concepts change. Journal of College Science Teaching, 29(4), 229-232 // g6, P, AS.

Zeineddin, A., & Abd-El-Khalick, F. (2008). On coordinating theory with evidence: The role of epistemic commitments in scientific reasoning among college students. Eurasia Journal of Mathematics, Science and Technology Education, 4(2), 153-168 // g7, P, M, BUOY, LPRO.

Zeitoun, H. H. (1989). The relationship between abstract concept achievement and prior knowledge, formal reasoning ability and gender. International Journal of Science Education, 11(2), 227-234 // g6,B,GEN.

Zembal, C., Starr, M. , Krajcik, J. (1999). Constructing a framework for elementary science teaching using pedagogical content knowledge. In J. Gess-Newsome, Lederman, N. (Ed.), Examining pedagogical content knowledge (pp. 237-256). Dordrecht, The Netherlands: Kluwer Academic Press // g7,PCK,g9.

Zembal-Saul, C., Blumenfeld, P. , Krajcik, J. (2000). Influence of guided cycles of planning, teaching, and reflection on prospective elementary teachers' science content representations. Journal of Research in Science Teaching, 37(4), 318-339 // g7,g8,P,S,ES,CTL,LPRO.

Zembylas, M., Isenbarger, L. (2002). Teaching science to students with learning disabilities: Subverting the myths of labeling through teachers' caring and enthusiasm. Research in Science Education, 32(1), 55-79 // g7.

Zembylas, M. (2004). Emotion metaphors and emotional labor in science teaching. Science Education, 88(3), 301-324 // g8, AFF.

Zembylas, M. (2004). Emotional issues in teaching science: A case of a teacher's views. Research in Science Education, 34(4), 343-364 // g1, SCON, AFF, g8.

Zembylas, M. (2005). Three perspectives on linking the cognitive and the emotional in science learning: Conceptual change, socio-constructivism and poststructuralism. Studies in Science Education, 41, 91-116 // g1, SCON, CC, AFF.

Zetterqvist , A. (1998). Teachers´ views on their teaching of evolution. Results from a questionnaire concerning Swedish lower secondary schools. In H. Bayrhuber, Brinkman , F. (Ed.), What - Why - How? Research in Didaktik of Biology (pp. 11-20). Kiel: IPN - Materialien // g8,CTL,B.

Zeyer, A. (2005). Szientismus im naturwissenschaftlichen Unterricht? Zeitschrift für Didaktik der Naturwissenschaften, 11, 193-206 // g1.

Zeyer, G. (1981). Vorstellungen von Erwachsenen zum freien Fall. In D.-F. D. d. Physik (Ed.), Vortraege der Fruehjahrstagung 1981 (pp. 87-93). Giessen: 1. Physikalisches Institut // g6,P,M.

Zhang, B. H., Liu, X., & Krajcik, J. S. (2006). Expert models and modeling processes associated with a computer-modeling tool. Science Education, 90(4), 579-604 // g7, B, ECOLOGY, MODEL, MMEDIA, VIDEO.

Ziegler, A., Wiesner, H. (1993). Schwierigkeiten mit der Heisenbergschen Unschaerferelation am Einzelspalt. In G. Kurz (Ed.), Didaktik der Physik. Vortraege Physikertagung 1993, Esslingen (pp. 571-576). Bad Honnef: Deutsche Physikalische Gesellschaft // g6,P,Q.

Zietsman, A., Hewson, P. W. (1986). Effect of instruction using microcomputer simulations and conceptual change strategies on science learning. Journal of Research in Science Teaching, 23(1), 27-39 // g7,P,M.

Zietsman, A., Clement, J. (1990). Using anchoring conceptions and analogies to teach about levers. Paper presented at the annual meeting of the American Educational Research Association, Boston MA // g7,P,M,.

Zietsman, A., Clement, J. (1993). Cycles in research about physics learning. In J. Novak (Ed.), Proceedings of the Third International Seminar on Misconceptions and Educational Strategies in Science and Mathematics. Ithaca, New York: Cornell University (distributed electronically) // g5,g6,P.

Zietz, K. (1936). Die Physik des Kindes. Die Deutsche Schule, 40, 263-269 // g1,g6.

Zietz, K. (1937). Kindliche Erklaerungsversuche fuer Naturerscheinungen. Zeitschrift fuer paedagogische Psychologie, 38, 219-228 // g6,g8.

Zietz, K. (1937). Physikalische Theorien bei Kindern. Bericht ueber den XV. Kongress der Deutschen Gesellschaft fuer Psychologie, Jena, 232-238 // g5,g6,g8.

Zietz, K. (1938). Das physikalische und technische Denken des Kindes. Bayerische Lehrerzeitung, 12, 180-184 // g6,g8,P.

Zietz, K. (1938). Physikalische Theorien bei Kindern. Die Deutsche Schule, 42(6), 205-210 // g6,P.

Zietz, K. (1939). Zur Entwicklung des kausalen Denkens bei Kindern. Zeitschrift fuer angewandte Psychologie und Charakterkunde, 57, 50-58 // g1,g6.

Zietz, K. (1955). Kind und physische Welt. Muenchen // g6,P.

Zimmerman, C., Raghavan, K., Sartoris, M. L. (2003). The impact of the MARS curriculum on students' ability to coordinate theory and evidence. International Journal of Science Education, 25(10), 1247-1271 // g7, MODEL.

Zimmermann, E. (1995). Practical work in physics education at secondary level: A study of Brazilian teachers' views and practices. In D. Psillos (Ed.), European Research in Science Education II (pp. 411-415). Thessaloniki: Art of Text S. A. // g8,CSC.

Zimmermann, E. (1997). Models of science in science education. In M. Group (Ed.), Exploring models and modelling in science and technology education (pp. 35-57). Reading,UK: The University of Reading, Faculty of Education and Community Science // g8,CTL,CSC,MODEL.

Zimmermann, M.-L., Zimmermann, J.-L. (1991). Les conceptions des apprenants concernant l'appentissage. In A. Giordan, Martinand, J.-L. , Souchon, C. (Ed.), Ecole et medias face aux defis de l'environnement. Actes des 13. journees int. sur la communication, l'ed. et la culture scient. et indust. (pp. 642-645). Chamonix: Centre Jean Franco // g6,CTL.

Zimmermann, M.-L., Zimmermann, J.-L. (1992). Les conceptions des etudiants concernant l'apprentissage sont-elles identiques a celles des collegiens ? In A. Giordan, Martinand, J.-L. , Raichvarg, D. (Ed.), Annees 2000: Enjeux et resssources de la formation et de la culture scientifiques et techniques (pp. 179-184). Chamonix: Centre Jean Franco // g6,CTL.

Zimmermann, M. L. (1982). Quelques representations d'eleves a propos de la chaleur. Actes des Journees Internationales sur l'Education Scientifique, 4 // g6,P,T.

Zimmermann, M. L., Bain, D. (1988). Que vaut notre evaluation des connaissances ? Les avatars d'un questionnaire de physique. In A. Giordan, Martinand, J. L. (Ed.), Communication, education et culture scientifiques et industrielles. Dixiemes Journees Internationales sur l'Education Scientifique (pp. 503-508). Paris: Dixiemes Journees Internationales sur l`Education Scientifique // g5.

Zimmermann, M. L. (1990). Concept de chaleur. Geneve: Universite de Geneve // g6,g7,P,T.

Zimrot, R., Stavy, R. (1993). Teaching kinetics and its relevance for learning chemical equilibrium. In J. Novak (Ed.), Proceedings of the Third International Seminar on Misconceptions and Educational Strategies in Science and Mathematics. Ithaca, New York: Cornell University (distributed electronically) // g7,C.

Zion, M. (2008). On line forums as a "rescue net" in an open inquiry process. International Journal of Science and Mathematics Education, 6(2), 351-375 // g7, g8, CTL, B, MMEDIA.

Zion, M., Cohen, S., & Amir, R. (2007). The spectrum of dynamic inquiry teaching practices. Research in Science Education, 37(4), 423-447 // g8, CTL, INQUIRY.

Zion, M., Michalsky, T., & Mevarech, Z. R. (2005). The effect of metacognitive instruction embedded within an asynchronous learning network on scientific inquiry skills. International Journal of Science Education, 27(8), 957-983 // g7, B, INQUIRY, MMEDIA.

Zion, M., & Sadeh, I. (2007). Curiosity and open inquiry learning. Journal of Biological Education, 41(4), 162-167 // g7, B, INQUIRY.

Zion, M., Slezak, M., Shapira, D., Link, E., Bashan, N., Brumer, M., et al. (2004). Dynamic, open inquiry in biology learning. Science Education, 88(5), 728-753 // g7, B, INQUIRY.

Zogza, V., Ravanis, K. , Bagakis, G. , Koliopoulos, D. (2001). Working with science in kindergarden: Didactic strategies. 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. 709-711). Thessaloniki, Greece: Aristotle University of Thessaloniki // g1,PIAGET,VYGOTSKY,SCON,g7.

Zohar, A., Tamir, P. The construction and use of an instrument which evaluates causal reasoning abilities in the context of learning biology. Journal of Biological Education // g6.

Zohar, A., Ginosar, S. (1998). Lifting the taboo regarding teleology and anthropomorphism in biology education. Heretical suggestions. Science Education, 82(6), 679-697 // g1,ANTHRO,g6,B.

Zohar, A. (1998). Result or conclusion? Students' differentiation between experimental results and conclusions. Journal of Biological Education, 32(1), 53-59 // g6,CSC,.

Zohar, A. (2006). Connected knowledge in science and mathematics education. International Journal of Science Education, 28(13), 1579-1600 // g1, CONTEXT, GEN.

Zohar, A. (2006). The nature and development of teachers' metastrategic knowledge in the context of teaching higher order thinking. The Journal of the Learning Sciences, 15(3), 331-378 // g8, CTL, g9.

Zohar, A., & Aharon-Kravetsky. (2005). Exploring the effects of cognitive conflict and direct teaching for students of different academic levels. Journal of Research in Science Teaching, 42(7), 829-855 // g7, GC.

Zohar, A., & Schwartzer, N. (2005). Assessing teachers' pedagogical knowledge in the context of teaching higher-order thinking. International Journal of Science Education, 27(13), 1595-1620 // g8, CTL, GC, INQUIRY.

Zoldosova, K., & Prokop, P. (2007). Primary pupils' preconceptions about child prenatal development. Eurasia Journal of Mathematics, Science and Technology Education, 3(3), 239-246 // g6, B, HUMAN.

Zoller, U. (1990). Students' misunderstandings and misconceptions in college freshman chemistry (general and organic). Journal of Research in Science Teaching, 27(10), 1053-1065 // g6,g7,C.

Zoller, U., Donn, S. , Wild, R. , Beckett, B. (1991). Students' versus their teachers' beliefs and positions on science/technology/society-oriented issues. International Journal of Science Education, 13(1), 25-36 // g6,g8,STS,CSC,GEN.

Zoller, U., Donn, S. , Wild, R. , Beckett, P. (1991). Teachers' beliefs and views on selected science-technology- society topics: A probe into STS literacy versus indoctrination. Science Education, 75(5), 541-561 // g8,STS.

Zoller, U. (1996). The use of examinations for revealing and distinguishing between students' misconceptions, misunderstandings and "No conceptions" in college chemistry. Research in Science Education, 26(3), 317-326 // g5,g6,C.

Zoller, U. (1999). Scaling-up of higher-order cognitive skills-oriented college chemistry teaching: An action-oriented research. Journal of Research in Science Teaching, 36(5), 583-596 // g7,C.

Zoller, U. (2002). Algorithmic, LOCS, and HOCS (chemistry) exam questions: Performance and attitudes of college students. International Journal of Science Education, 24(2), 185-204 // g6,C.

Zoller, U. (2003). HOCS priblem solving vs. LOCS exercise solving: What do college science students prefer. In D. Psillos, Kariotoglou, P., Tselfes, V., Hatzikraniotis, E., Fassoulopoulos, G., Kallery, M. (Ed.), Science education research in the knowledge-based society (pp. 201-207). Dordrecht, The Netherlands: Kluwer Academic Publishers // g6, GC.

Zollman, D. (1992). Making physics understandable. In D. K. Nachtigall, Bartsch, H. , Scholz, C. (Ed.), International Conference on Physics Teachers' Education. Proceedings (pp. 85-93). Dortmund: University of Dortmund // g1.

Zook, D. (1995). Confronting the evolution education abyss. Journal of Research in Science Teaching, 32(10), 1111-1120 // g6,B.

Zubrowski, B. (2001). A curriculum framework based on archetypical phenomena and technologies. Science Education, 86(4), 481-501 // g1,SCON,CON.

Zuckerman, J. T. (1994). Accurate and inaccurate conceptions about osmosis that accompanied meaningful problem solving. School Science and Mathematics, 94(5), 226-234 // g6,P,M.

Zuckerman, J. T. (1994). Problem solvers' conceptions about osmosis. The American Biology Teacher, 56(1), 22-25 // g6,B.

Zuckerman, J. T. (1995). Use of inappropriate and inaccurate conceptual knowledge to solve an osmosis problem. School Science and Mathematics, 95(3), 124-130 // g6,P,M.

Zuckermann, G., Chudinova, E. , Khavkin, E. (1998). Inquiry as a pivotal element of knowledge acquisition within the Vygotskian paradigm: Building a science curriculum for the elementary school. Cognition and Instruction, 16(2), 201-233 // g1,VYGOTSKY,ACTTH,INQUIRY,g7,B.

Zuga, K. F. (2004). Improving technology education research on cognition. International Journal of Technology and Design Education, 14(1), 79-87 // g1, TECHNOLOGY.

Zusho, A., Pintrich, P. R., Coppola, B. (2003). Skill and will: The role of motivation and cognition in the learning of college chemistry. International Journal of Science Education, 25(9), 1081-1094 // g7, C, AFF.

Zuzovsky, R. (1993). Conceptualizing a teaching experience on the development of the idea of evolution: A broad epistemological approach to the education of science teachers. Paper presented at the 66th annual meeting of National Association of Research in Science Teaching, Atlanta Georgia, 1-31 // g8,g9,B.

Zuzovsky, R. (1994). Conceptualizing a teaching experience on the development of the idea of evolution: An epistemological approach to the education of science teachers. Journal of Research in Science Teaching, 31(5), 557-574 // g8,g9,B.

Zuzovsky, R. (1995). Learning theories: An epistemological perspective. In F. Finley, Allchin, D. , Rhees, D. , Fifield, S. (Ed.), Proceedings. Third international history, philosophy, and scienceteaching conference (pp. 1305-1318). Minneapolis: University of Minnesota // g1.