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

Wallace, J., Louden, W. (2000). Teachers' learning. Dordrecht, NL: Kluwer Academic Publishers // g8,CTL,CSC,g9.

Wallace, J. (2001). Introduction: Science teaching cases as learning opportunities. Research in Science Education, 31(2), 185-190 // g9.

Wallace, J., & Donovan, J. (2006). Performance and worship: Understanding the liturgy of teaching and learning physics. School Science Review, 88(322), 53-60 // g8, CTL, VIDEO.

Wallace, J. D., Mintzes, J. J. (1990). The concept map as a research tool: Exploring conceptual change in biology. Journal of Research in Science Teaching, 27(10), 1033-1052 // g5,g7,B.

Wallace, J. D., Mintzes, J. J. (1990). The use of concept maps in examining students' conceptions and structure of knowledge in science. Paper presented at the Annual Meeting of the National Association for Research in Science Teaching, Atlanta // g5.

Wallace, J. D., Louden, W. (1992). Science teaching and teachers' knowledge: Prospects for reform of elementary classrooms. Science Education, 76(5), 507-521 // g8,CTL.

Wallin, A., Hagman, M. , Olander, C. (2001). Teaching and learning about the biological evolution: Comparing individual interviews and small group methods for investigating students' conceptual understanding. 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. 689-691). Thessaloniki, Greece: Aristotle University of Thessaloniki // g6,g5,B,EVOLUTION.

Walpuski, M., & Sumfleth, E. (2006). Faktoren gelingender Gruppenarbeit - Analyse von Test- und Videodaten. In A. Pitton (Ed.), Lehren und Lernen mit neuen Medien (Vol. 26, pp. 248-250). Münster: LIT Verlag // g7, C.

Wals, A. E.-J. (1992). Young adolescents' perceptions of environmental issues: Implications for environmental education in urban settings. Environmental Education, 8, 45-58 // g6,B,STS.

Wals, A. E.-J. (1994). Nobody planned it, it just grew! Young adolescents' perceptions and experiences of nature in the context of urban environmental education. Children's environments, 11(3), 177-193 // g6,B,STS.

Wals, A. E. J. (1994). Pollution stinks - Young adolescents' perceptions of nature and environmental issues with implications for education in urban settings. De Lier: Academic Book Center // g6,g7,B,STS.

Walsh, E., Dall'Alba, G. , Bowden, J. A. , Martin, E. , Marton, F. , Masters, G. N.Ramsden, P. , Stephanou, A. (1993). Physics students' understanding of relative speed: A phenomenographic study. Journal of Research in Science Teaching, 30(9), 1133-1148 // g5,g6,P,M.

Waltner, C., Wiesner, H., & Teichmann, J. (2005). Physiklernen im Deutschen Museum - eine explorative Studie. In V. Nordmeier & A. Oberländer (Eds.), Didaktik der Physik - Berlin 2005. CD zur Frühjahrstagung des Fachverbands Didaktik der Physik der Deutschen Physikalischen Gesellschaft. Berlin: Lehmanns Media // g7, P, O, INFORMAL.

Wambugu, P. W., & Changeiywo, J. M. (2008). Effects of mastery learning approach on secondary school student´s physics achievement. Eurasia Journal of Mathematics, Science and Technology Education, 4(3), 293-302 // g7, P, M.

Wandersee, J., Roach, L. (1998). Interactive historical vignettes. In J. Mintzes, Wandersee, J. , Novak, J. (Ed.), Teaching science for understanding (pp. 281-306). San Diego: Academic Press // g3,g7,CSC.

Wandersee, J. H. (1983). Students' misconceptions about photosynthesis: A cross-age study. In H. Helm, Novak, J. D. (Ed.), Proceedings of the International Seminar "Misconceptions in Science and Mathematics" (pp. 441-466). Ithaca, N. Y.: Cornell University // g6,B.

Wandersee, J. H. (1985). Can the history of science help science educators anticipate students' misconceptions? Journal of Research in Science Teaching, 23(7), 581-597 // g3,g6,B.

Wandersee, J. H. (1986). Plants or animals: Which do junior high school students prefer to study ? Journal of Research in Science Teaching, 23(5), 415-426 // g6,B.

Wandersee, J. H., Mintzes, J. J. (1987). Children's biology: A content analysis of conceptual development in the life sciences. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. II (pp. 523-534). Ithaca: Cornell University // g6,B.

Wandersee, J. H. (1987). Drawing concept circles: a way of revealing what the learner knows. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar Misconceptions and Educational Strategies in Science and Mathematics, Vol. I (pp. 506-520). Ithaca: Cornell University // g5.

Wandersee, J. H., Mintzes, J. J. , Arnaudin, M. W. (1989). Biology from the learner's viewpoint: A content analysis of the research literature. School Science and Mathematics, 89(8), 654-668 // g1.

Wandersee, J. H. (1990). Concept mapping and the cartography of cognition. Journal of Research in Science Teaching, 27(10), 923-936 // g5.

Wandersee, J. H. (1992). The historicality of cognition: Implications for science education research. Journal of Research in Science Teaching, 29(4), 423-434 // g1,g3.

Wandersee, J. H. (1993). The lexical analysis of students' "scientific" explanations: Implications for learning theory. 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) // g4,g5.

Wandersee, J. H. (1994). Making high-tech micrographs meaningful to the biology student. In P. Fensham, Gunstone, R. , White, R. (Ed.), The content of science (pp. 161-176). London: The Falmer Press // g3,g7,B.

Wandersee, J. H., Mintzes, J. J. , Novak, J. D. (1994). Research on alternative conceptions in science. In D. Gabel (Ed.), Handbook of research on science teaching and learning (pp. 177-210). New York: Macmillan // g1,g5.

Wandersee, J. H., Good, R. G. , Demastes, S. S. (1995). Forschung zum Unterricht ueber Evolution: Eine Bestandsaufnahme. Zeitschrift fuer Didaktik der Naturwissenschaften, 1(1), 43-54 // g6,B.

Wandersee, J. H., Fisher, K. M. (2000). Knowing biology. In K. M. Fisher, Wandersee, J. M. , Moody, D. E. (Ed.), Mapping biology knowledge (pp. 39-54). Dordrecht, The Netherlands: Kluwer Academic Publishers // g2.

Wandersee, J. H. (2000). Language, analogy, and biology. In K. M. Fisher, Wandersee, J. M. , Moody, D. E. (Ed.), Mapping biology knowledge (pp. 95-108). Dordrecht, The Netherlands: Kluwer Academic Publishers // g1,ANA.

Wandersee, J. H., Fisher, K. M. , Moody, D. E. (2000). The nature of biology knowledge. In K. M. Fisher, Wandersee, J. M. , Moody, D. E. (Ed.), Mapping biology knowledge (pp. 25-38). Dordrecht, The Netherlands: Kluwer Academic Publishers // g2.

Wandersee, J. H. (2000). Using concept circle diagramming as a knowledge mapping tool. In K. M. Fisher, Wandersee, J. M. , Moody, D. E. (Ed.), Mapping biology knowledge (pp. 109-126). Dordrecht, The Netherlands: Kluwer Academic Publishers // g5.

Wandersee, J. H. (2000). Using concept mapping as a knowledge mapping tool. In K. M. Fisher, Wandersee, J. M. , Moody, D. E. (Ed.), Mapping biology knowledge (pp. 127-142). Dordrecht, The Netherlands: Kluwer Academic Publishers // g5.

Wandersee, J. H., & Baudoin Griffard, P. (2002). The history of chemistry: Potential and actual contributions to chemical education. In J. Gilbert, O. de Jong, R. Justi, D. F. Treagust & J. van Driel (Eds.), Chemical education: Towards research-based practice (pp. 29-46). Dordrecht: Kluwer Academic Publishers // g1, C, g3, CSC.

Wang, J., Oliver, J. S., & Staver, J. R. (2008). Self-concept and science achievement: Investigating a reciprocal relation model across the gender classification in a crosscultural context. Journal of Research in Science Teaching, 45(6), 711-725 // g6, AFF, GEN.

Wang, J.-R. (2004). Enhacing elementary science teachers' knowledge of teaching: The case of designing and implementing an instructional unit. International Journal of Science and Mathematics Education, 2(4), 455-476 // g8, CTL, PCK, VIDEO.

Wang, J.-R., & Lin, S.-W. (2008). Examining reflective thinking: A study of changes in methods students´ conceptions and understandings of inquiry teaching. International Journal of Science and Mathematics Education, 6(3), 459-479 // g1, SCON, g7, g8, INQUIRY, CSC, VIDEO.

Wang, M.-N. M., Wu, K.-C., & Huang, T.-C. I. (2007). A study on the factors affecting biological concept learning of junior high schol students. International Journal of Science Education, 29(4), 453-465 // g6, B.

Wang, W., & Coll, R. K. (2005). An investigation of tertiary-level learning in some practical physics courses. International Journal of Science and Mathematics Education, 3(4), 639-669 // g7, LAB.

Ward, C. R., Herron, J. D. (1980). Helping students understand formal chemical concepts. Journal of Research in Science Teaching, 17(5), 387-400 // g7,C.

Ward, K., Dubos, B. , Gatlin, L. , Schulte, P. , D'Amico, N. , Beisenherz, P. (1996). Constructing scientific knowledge. The Science Teacher, 63(9), 21-23 // g7,C.

Ward, R. E., Wandersee, J. H. (2002). Struggeling to understand abstract science topics: A roundhouse diagram-based study. International Journal of Science Education, 24(6), 575-592 // g7,B,C.

Ward, R. E., Wandersee, J. H. (2002). Students' perceptions of Roundhouse diagramming: a middle-school viewpoint. International Journal of Science Education, 24(2), 205-225 // g5,g6,C.

Warner, J., Wallace, J. (1994). Creative writing and students' science learning in a science and technology context. Australian Science Teachers Journal, 40(4), 71-78 // g5.

Warren, B., Ballenger, C. , Ogonowski, M. , Rosebery, A. S. , Hudicourt-Barnes, J. (2001). Rethinking diversity in learning science: The logic of everyday sense-making. Journal of Research in Science Teaching, 38(5), 529-552 // g1,g4,g7.

Warren, J. W. (1979). Understanding force. London: Murray // g6,P,M.

Warren, J. W. (1982). The nature of energy. European Journal of Science Education, 4(3), 295-297 // g6,P,EN.

Warwick, P., Stephenson, P., Webster, J., Bourne, J. (2003). Developing pupils' written expression of procedural understanding through the use of writing frames in science: Findings from a case study approach. International Journal of Science Education, 25(2), 173-192 // g7, CSC, LAB.

Warwick, P., & Siraj-Blatchford, J. (2006). Using data comparison and interpretation to develop procedural understandings in the primaray classrooms: Case study evidence from action research. International Journal of Science Education, 28(5), 443-467 // g7, g9, INQUIRY.

Wasser, J., Bresler, L. (1996). Working in the interpretive zone: Conceptualizing collaboration in qualitative research teams. Educational Researcher, 25(5), 5-15 // g5.

Watanabe, M., Nunes, N., Mebane, S., Scalise, K., & Claesgens, J. (2007). "Chemistry for all, instead of chemistry just for the elite": Lessons learned from detracked chemistry classrooms. Science Education, 91(5), 683-709 // g6, CTL, C, g8.

Waterman, M. A. (1983). Alternative conceptions to the tentative nature of scientific knowledge. In H. Helm, Novak, J. D. (Ed.), Proceedings of the International Seminar "Misconceptions in Science and Mathematics" (pp. 282-291). Ithaca, N. Y.: Cornell University // g1.

Waters-Adams, S. (2006). The relationship between understanding of the nature of science and practice: The influence of teachers' beliefs about education, teaching and learning. International Journal of Science Education, 28(8), 919-944 // g8, CSC, CTL.

Watson, B., Konicek, R. (1990). Teaching for conceptual change: Confronting children's experience. Phi Delta Kappan, 71(9), 680-685 // g7,P,T.

Watson, J., Prieto, T. , Dillon, J. (1997). Consistency of students' explanations about combustion. Science Education, 81(4), 425-443 // g6,C,.

Watson, J. R. (1994). Students' engagement in practical problem solving: A case study. International Journal of Science Education, 16(1), 27-43 // g6.

Watson, J. R., Swain, J. R. L. (2004). Students' discussions in practical scientific inquiries. International Journal of Science Education, 26(1), 25-45 // g6, g7, g8, CTL, CSC, LAB, INQUIRY, VIDEO.

Watson, K., Steele, F., Vozzo, L., & Aubusson, P. (2007). Changing in the subject: Retraining teachers to teach science. Research in Science Education, 37(2), 141-154 // g8, CSC, P.

Watson, R., Prieto,T. , Dillon, J. S. (1995). The effect of practical work on students' understanding of combustion. Journal of Research in Science Teaching, 32(5), 487-502 // g6,C.

Watson, R., Dillon, J. (1996). Progression in pupils' understanding of combustion. In G. Welford, Osborne, J. , Scott, P. (Ed.), Research in Science Education in Europe (pp. 243-253). London: The Falmer Press // g6,C.

Watson, R., Swain, J. , McRobbie, C. (1999). The interaction between teaching styles and pupil autonomy in practical science invsetigations - a case study. In J. Leach, Paulsen, A. C. (Ed.), Practical Work in Science Education (pp. 148-159). Dordrecht, The Netherlands: Kluwer // g8,CTL,LAB,VIDEO.

Watson, R., & Manning, A. (2008). Factors influencing the transformation of new teaching approaches from a programme of professional development to the classroom. International Journal of Science Education, 30(5), 689-710 // g8, CTL.

Watt, D., Russell, T. (1990). Sound. Liverpool: Liverpool University Press // g6,g7,P,S.

Watt, D. (1996). An analysis of teacher questioning behaviour in constructivist primary Science Education using a modification of a descriptive system designed by Barnes and Todd (1977). International Journal of Science Education, 18(5), 601-613 // g5,g9.

Watters, D. J., & Watters, J. J. (2007). Approaches to learning by students in the biological sciences: Implications for teaching. International Journal of Science Education, 29(1), 19-44 // g6, B, CTL.

Watts, M. (1980). An exploration of student's understanding of the concepts "force" and "energy". Paper represented at the International Conference on Education for Physics Teaching, Trieste // g6,P,M,EN,.

Watts, M. (1980). Suggestions for generating and designing cards for the interview about instances approach. Working paper presented by the Institute for Educational Technology, University of Surrey // g5.

Watts, M. (1981). Exploring pupils' alternative frameworks using the Interview-About-Instances Method. 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. 365-386). Ludwigsburg: Paedagogische Hochschule // g5.

Watts, M., Zylbersztajn, A. (1981). A survey of some children's ideas about force. Physics Education, 16, 360-365 // g6,P,M.

Watts, M. (1982). Gravity - Don't take it for granted! Physics Education, 17, 116-121 // g6,P,M.

Watts, M., Gilbert, J. K. (1983). Appraising the understanding of physics concepts: An introductory guide. Guildford: Educational Studies // g1,g5.

Watts, M., Gilbert, J. K. (1983). Appraising the understanding of science concepts: "Energy". Guildford: Educational Studies // g6,P,EN.

Watts, M., Gilbert, J. K. (1983). Appraising the understanding of science concepts: "Force". Guildford: Educational Studies // g6,P,M.

Watts, M., Gilbert, J. K. (1983). Appraising the understanding of science concepts: "Gravity". Guildford: Educational Studies // g6,P,M.

Watts, M., Gilbert, J. K. (1983). Appraising the understanding of science concepts: "Heat". Guildford: Educational Studies // g6,P,T.

Watts, M., Gilbert, J. K. (1983). Appraising the understanding of science concepts: "Light". Guildford: Educational Studies // g6,P,O.

Watts, M., Gilbert, J. K. (1983). Enigmas in school science: Students' conceptions for scientifically associated words. Research in Science and Technological Education, 1(2), 161-171 // g4,g6,P,M,EN,.

Watts, M. (1983). Some alternative views of energy. Physics Education, 18, 213-217 // g6,P,EN.

Watts, M. (1983). A study of schoolchildren's alternative frameworks of the concept of force. European Journal of Science Education, 5(2), 217-230 // g6,P,M,.

Watts, M. (1983). Using networks to represent pupils' meanings for concepts of force and energy. In J. Bliss, Monk, M. , Ogborn, J. (Ed.), Qualitative data analysis for educational research (pp. 89-96). Canberra: Croom Helm // g6,P,M,EN,.

Watts, M., Pope, M. (1985). Modulation and fragmentation: Some cases from science education. Paper presented at the 6th International Congress on Personal Construct Psychology, Cambridge // g1.

Watts, M. (1985). Students' conceptions of light - a case study. Physics Education, 20, 183-187 // g6,P,O.

Watts, M., Bentley, D. (1987). Constructivism in the classroom: Enabling conceptual change by words and deeds. British Educational Research Journal, 13(2), 121-135 // g1,g6,CTL.

Watts, M. (1988). From concept maps to curriculum signposts. Physics Education, 23, 74-79 // g1.

Watts, M., Ebbutt, D. (1988). Sixth-formers' views of their Science Education, 11-16. International Journal of Science Education, 10(2), 211-219 // g6,CTL.

Watts, M., Gilbert, J. K. (1989). The 'new learning': Research, development and the reform of school Science Education. Studies in Science Education, 16, 75-121 // g1.

Watts, M., Pope, M. (1989). Thinking about thinking, learning about learning: Constructivism in physics education. Physics Education, 24, 326-331 // g1,g6,P,O.

Watts, M. (1994). Constructivism, re-constructivism and task-orientated problem-solving. In P. Fensham, Gunstone, R. , White, R. (Ed.), The content of science (pp. 39-48). London: The Falmer Press // g1.

Watts, M., Bentley, D. (1994). Humanizing and feminizing school science: Reviving anthropomorphic and animistic thinking in constructivist Science Education. International Journal of Science Education, 16(1), 83-97 // g1.

Watts, M., Alsop, S. (1995). Questioning and conceptual understanding: The quality of pupils' questions in science. School Science Review, 76(277), 91-95 // g7.

Watts, M., Alsop, S. , Gould, G. , Walsh, A. (1997). Prompting teachers' constructive reflection: Pupils' questions as critical incidents. International Journal of Science Education, 19(9), 1025-1037 // g1,CON,QUESTIONS,g8,CTL,.

Watts, M., Gould, G. , Alsop, S. (1997). Questions of understanding: Categorising pupils' questions in science. School Science Review, 79(286), 57-63 // g7.

Watts, M., Jofili, Z. (1998). Towards critical constructivist teaching. International Journal of Science Education, 20(2), 173-185 // g1,CON,g8,CTL,g9.

Weaver, G. C. (1998). Strategies in K-12 science instruction to promote conceptual change. Science Education, 82(4), 455-472 // g7,LAB,g8,g9.

Webb, l., Morrison, I. (2000). The consistency of primary children's conceptions about the Earth and its gravity. School Science Review, 81(296), 99-104 // g6,P,AS,GRAV.

Webb, M. E. (2005). Affordances of ICT in science learning: Implications for an integrated pedagogy. International Journal of Science Education, 27(6), 705-735 // g1, MMEDIA.

Webb, P. (1992). Primary science teachers' understandings of electric current. International Journal of Science Education, 14(4), 423-429 // g6,g8,P,E.

Webb, P., & Treagust, D. F. (2006). Using exploratory talk to enhance problem-solving and reasoning skills in grade 7 science classrooms. Research in Science Education, 36(4), 381-401 // g7, DISCOURSE.

Weber, K. (1989). Schuelervorstellungen ueber Bewegung und Kraft. Physik in der Schule, 27(1/2), 19-24 // g6,P,M,.

Weber, K. (1991). Schwierigkeiten beim Erlernen der Newtonschen Mechanik. Physik in der Schule, 29(4), 122-129 // g6,P,M.

Weck, M. A. (1993). The value of "good" wrong answers. 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.

Wee, B., Fast, J., Shepardson, D., & Harbor, J. (2004). Students' perceptions of environmental-based inquiry experiences. School Science and Mathematics, 104(3), 112-118 // g7, CTL, INQUIRY, B, ECOLOGY, g9.

Weerda, J. (1978). Begriffe der Chemie und Physik in der Sprache der Kinder und der Wissenschaften. Frankfurt/Main, Bern: Lang // g6,C,P.

Weerda, J. (1981). Zur Entwicklung des Gasbegriffs beim Kinde. Naturwissenschaften im Unterricht - Physik/Chemie, 29(3), 90-98 // g6,P,M.

Weerda, J. (1982). Untersuchungen zum Modellbegriff in der Chemie: eine empirische untersuchung bei Schuelern. Frankfurt/Main, Bern: Lang // g6,C.

Wei, B., & Thomas, G. P. (2006). An examination of the change of the junior secondary school chemistry curriculum in the P.R. Chine: In the view of scientific literacy. Research in Science Education, 36(4), 403-418 // g1, C.

Wein, H. (1960). Srache und Wissenschaft. In J. Jungius-Gesellschaft (Ed.), Vortraege gehalten auf der Tagung der Joachim Jungius-Gesellschaft der Wissenschaften in Hamburg 1959 (pp. 13-41). Goettingen: Vandenhoeck und Ruprecht // g4.

Wein, H. (1965). Sprache und Weltbild. Westermanns Paedagogische Beitraege, 17, 1-12 // g4.

Weinberger, Y., Zohar, A. (2000). Higher order thinking in science teacher education in Israel. In S. K. Abell (Ed.), Science teacher education - an international perspective (pp. 95-120). Dordrecht, The Neterhlands: Kluwer Academic Publishers // g8,CTL,GC,g9.

Weinburgh, M. (2003). Confronting and changing middle school teachers' perceptions of scientific methodology. School Science and Mathematics, 103(5), 222-232 // g8, CSC.

Weinburgh, M., Smith, K., & Clark, J. (2008). Using the reflective teaching model in a year-long professional development: A case study of a second year urban elementary teacher. Electronic Journal of Science Education, 12(2), 22-40 // g8, CTL.

Weinert, F. E. (1977). Entwicklungsgemaesser Unterricht. Unterrichtswissenschaft, 5, 1-13 // g1.

Weinstein, M. (2007). Finding science in the school body: Reflections on transgressing the boundaries of science education and the social studies of science. Science Education, 92(3), 389-403 // g1, CSC.

Weisgerber, L. (1953). Vom Weltbild der deutschen Sprache. Duesseldorf: Schwann // g4.

Weisgerber, L. (1955). Das Warten der Welt als sprachliche Aufgabe der Menschheit. Sprachforum, 1, 10-19 // g4.

Weisgerber, L. (1962). Die sprachliche Gestaltung der Welt. Duesseldorf: Schwann // g4.

Weitzel, H. (2004). Schülervorstellungen zu Prozessen der Anpassung und ihre Entwicklung im Vermittlungsexperiment. In H. Gropengießer, A. Janßen-Bartels & E. Sander (Eds.), Lehren fürs Leben (pp. 141-150). Köln: Aulis Verlag Deubner // g6, B.

Weizsaecker, C. F. v. (1960). Die Sprache der Physik. In J. Jungius-Gesellschaft (Ed.), Vortraege gehalten auf der Tagung der Joachim Jungius-Gesellschaft der Wissenschaften in Hamburg 1959 (pp. 137-153). Goettingen: Vandenhoeck und Ruprecht // g4.

Welch, W. W. (1984). Learning about energy: A review of the literature. Science Education Research Unit, University of Waikato, Hamilton, N. Z. // g6,P,EN.