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

Schmidt, H. J. (1990). On the instability of misconceptions: How students form their concept of isomerism. Paper presented at the 63th Annual Meeting of the Natinal Association for Research in Science Teaching, Atlanta, Georgia // g6,C,.

Schmidt, S., Parchmann, I. (2003). Untersuchung von Schülervorstellungen in einem Unterricht nach Chemie im Kontext (ChiK): Entwicklung, Erprobung und empirische Begleitung von Chemieunterricht der Sekundarstufe. In A. Pitton (Ed.), Außerschulisches Lernen in Physik und Chemie Band 23 (pp. 272-274). Münster: LIT Verlag // g7, C.

Schmidt-Weigand, F., Franke-Braun, G., & Hänze, M. (2008). Erhöhen gestufte Lernhilfen die Effektivität von Lösungsspielen? Unterrichtswissenschaft, 36(4), 365-384 // g7, P, M, BUOY.

Schmidt-Wolbrandt, K. (1990). Alltagsvorstellungen, Wissen und Einstellung von Schuelern im Zusammenhang mit der Gefaehrdung durch Elektrizitaet. In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie: Probleme und Perspektiven. Vortraege auf der Tagung fuer Didaktik der Physik/Chemie in Kassel, September 1989 (pp. 226-228). Alsbach: Leuchtturm // g6,P,E.

Schnirch, A., & Welzel, M. (2005). Konzeption, Entwicklung und Erprobung einer gendersensitiven computerunterstützten Lernumgebung zur Optik. In V. Nordmeier & A. Oberländer (Eds.), Didaktik der Physik - Berlin 2005. CD zur Frühjahrstagung des Fachverbands Didaktik der Physik der Deutschen Physikalischen Gesellschaft (pp. g7, P, MMEDIA, GEN). Berlin: Lehmanns Media //.

Schnotz, W. (1996). Psychologische Ansaetze des Wissenserwerbs und der Wissensveraenderung. In R. Duit, Rhoeneck, C. von (Ed.), Lernen in den Naturwissenschaften (pp. 15-36). Kiel: IPN, Kiel // g1,COSC.

Schnotz, W., Vosniadou,S. , Carretero, M. (1999). New perspectives on conceptual change. Oxford: Pergamon // g1,CC,RCON,SCON,AFF,COSC,PIAGET,VYGOTSKY,MM.

Schnotz, W., Preuss, A. (1999). Task-dependent construction of mental models as a basis for conceptual change. In W. Schnotz, Vosniadou, S. , Carretero, M. (Ed.), New perspectives on conceptual change (pp. 193-222). Oxford, UK: Pergamon // g10.

Schoen, L., Fedra, R.-D. (1987). Beschreibt Physik eigentlich das, was wir wahrnehmen ? In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie. Vortraege auf der Tagung fuer Didaktik der Physik/Chemie in Oldenburg 1986 (pp. 231-234). Alsbach: Leuchtturm // g1.

Schoen, L. (1987). Beschreibt Physik eigentlich das, was wir wahrnehmen? Polykop. Gesamthochschule Kassel, 1-12 // g2,g3.

Schoen, L. (1992). Die sinnliche Erfahrung als Grundlage fuer das Verstehen von Physik - Beispiele aus der Mechanik. In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie. Probleme und Perspektiven. Vortraege auf der Tagung fuer Didaktik der Physik/Chemie in Hamburg, September 1991 (pp. 259-261). Alsbach: Leuchtturm // g7,P,M.

Schoen, L.-H., Werner, J. (1999). Vom Licht zum Atom. 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. 304-306). Alsbach: Leuchtturm-Verlag // g7,P,O.

Schoenfeld-Tacher, R., Jones, L. L., Persichitte, K. A. (2001). Differential effects of a multimedia goal-based scenario to teach introductory biochemistry -- Who benefits most? Journal of Science Education and Technology, 10(4), 305-317 // g7, B, GENETICS.

Schollmeyer, G. (1991). Zur Beherrschung grundlegender Begriffe und Gesetze der Mechanik in Klasse 9. Physik in der Schule, 29(4), 130-134 // g6,P,M.

Schollum, B. (1982). Chemical change. New Zealand Science Teacher, 33, 4-9 // g6,C.

Schollum, B., Happs, J. C. (1982). Learner's views about burning. The Australian Science Teachers Journal, 28(3), 84-88 // g6,P,AT,C.

Schollum, B. (1983). Arrows in science diagrams: Help or hindrance for pupils? Research in Science Education, 13, 45-59 // g6.

Schollum, B., Osborne, R. (1985). Relating the new to the familiar. In R. Osborne, Freyberg, P. (Ed.), Learning in science. The implications of children's science (pp. 51-65). Auckland: Heinemann // g6,g7,P,AT.

Schollum, B. (1988). Helping students learn in chemistry. Research in Science Education, 18, 283-289 // g7,C.

Schommer, M. (1993). Comparisons of beliefs about the nature of knowledge and learning among postsecondary students. Research in Higher Education, 34(3), 355-370 // g6,CTL.

Schönborn, K. J., Anderson, T. R., Grayson, D. J. (2002). Student difficulties with the interpretation of a textbook diagram immunoglobulin G (IgG). Biochemistry and Molecular Biology Education, 30(2), 93-97 // g6, B, PHYSIO.

Schoneweg Bradford, C., Rubba, P. A. , Harkness, W. L. (1995). Views about science-technology-society interactions held by college students in general education pysics and STS courses. Science Education, 79(4), 355-373 // g6,STS.

Schoon, K., Boone, W. (1998). Self-efficacy and alternative conceptions of science of preservice elementary teachers. Science Education, 82(5), 553-568 // g8,P,AS,E,M,C,B.

Schoon, K. J. (1993). The origin of earth and space science misconceptions: A survey of pre-service elementary teachers. 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.

Schoster, A., Aufschnaiter, S. von. (1993). Lernergebnisse zu einer Unterrichtseinheit Elektrostatik / elektrische Stromkreise. 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. 286-288). Kiel: Leuchtturm-Verlag // g6,P,E.

Schoster, A., Aufschnaiter, S. von. (1994). Lernen im Nachhilfeunterricht. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie - Probleme und Perspektiven - Vortraege auf der Tagung fuer Didaktik der Physik / Chemie in Freiburg i.Br. , September 1994 (pp. 253-255). Alsbach: Leuchtturm-Verlag // g6,P,CSC.

Schoster, A., Aufschnaiter, S. von. (1996). Lernprozesse in Nachhilfesituationen in Physik. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie: Probleme und Perspektiven (pp. 260-262). Alsbach/Bergstrasse: Leuchtturm-Verlag // g7,P,LPRO,M.

Schoster, A., Aufschnaiter, S. (1997). Der Einfluss unterschiedlich komplexer Lernumgebungen auf die Lernentwicklung. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie. Probleme und Perspektiven (pp. 343-345). Alsbach: Leuchtturm-Verlag // g7,P,E,LPRO.

Schoster, A., von Aufschnaiter, S. (1999). Ergebnisse einer Untersuchung zum Einfluss unterschiedlich komplizierter Lernumgebungen auf die Lernentwicklung. 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. 367-369). Alsbach: Leuchtturm-Verlag // g7,P,E,ESTAT,LPRO.

Schoster, A., Aufschnaiter, S. v. (1999). The influence of learning environments on cognitive processes. In J. Leach, Paulsen, A. C. (Ed.), Practical Work in Science Education (pp. 297-312). Dordrecht, The Netherlands: Kluwer // g7,P,E,ESTAT,LAB,LPRO,VIDEO.

Schrader, J., Stadler, M., & Körber, K. (2008). Die Bedeutung informeller Lernumgebungen für die naturwissenschaftliche Grundbildung Erwachsener. Unterrichtswissenschaft, 36(2), 98-116 // g1, INFORMAL.

Schraw, G., Crippen, K. J., & Hartley, K. (2006). Promoting self-regulation in science education: Metacognition as part of a broader perspective on learning. Research in Science Education, 36(1-2), 111-139 // g1, GC.

Schreiner, C., Henriksen, E. K., & Hansen, P. J. K. (2005). Climate education: Empowering today's youth to meet tomorrow's challenges. Studies in Science Education, 41, 3-50 // g1, g7, B, ECOLOGY, STS.

Schröder, H.-J., Fischler, H. (2003). Handeln Lehrer im Unterricht so, wie Sie es wollen? Ausgewählte Ergebnisse einer Fallstudie. In A. Pitton (Ed.), Außerschulisches Lernen in Physik und Chemie Band 23 (pp. 147-149). Münster: LIT Verlag // g8, CTL, VIDEO.

Schröder, H.-J., Fischler, H. (2004). Fachdidaktisches Coaching: Methoden der Beratung an einem Fallbeispiel. In A. Pitton (Ed.), Chemie- und physikdidaktische Forschung und naturwissenschaftliche Bildung Band 24 (pp. 179-181). Münster: LIT Verlag // g8, CTL, g9.

Schröder, H.-J., & Fischler, H. (2005). Lehrerexpertise aus der Sicht von Fachdidaktikern. In A. Pitton (Ed.), Relevanz fachdidaktischer Forschungsergebnisse für die Lehrerbildung (Vol. 25, pp. 89-91). Münster: LIT Verlag // g8, g9.

Schroeder, C., Scott, T., Tolson, H., Huang, T.-Y., & Lee, Y.-H. (2007). A meta-analysis of national research: Effects of teaching strategies on student achievement in science in the United States. Journal of Research in Science Teaching, 44(10), 1436-1460 // g7.

Schröter, E., & Erb, R. (2006). Ergebnisse einer Studie zur domänenspezifischen Internetnutzung. In A. Pitton (Ed.), Lehren und Lernen mit neuen Medien (Vol. 26, pp. 54-56). Münster: LIT Verlag // g7, P, MMEDIA.

Schulte, W. (1980). Zur Bedeutung der Sprache im Physikunterricht. Untersuchungen ueber den Einfluss des Unterrichts auf das Verstaendnis physikalischer Termini. Goettingen: Universitaet Goettingen // g4,g6.

Schulte, W. (1982). Die Wirksamkeit von Physikunterricht beim Erlernen physikalischer Termini. Naturwissenschaften im Unterricht - Physik/Chemie, 30(3), 97-100 // g6,P,E.

Schultz, K., Murray, T. , Clement, J. , Brown, D. E. (1987). Overcoming misconceptions with a computer based tutor. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. III (pp. 434-447). Ithaca: Cornell University // g7,P,M.

Schultz, K. (1993). Paradoxes of "constructivist teaching" and their implication for teacher education. 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) // g1.

Schumacher, G. M. (1993). Difficult to change knowledge: Explanations and interventions. 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) // g1.

Schumacher, G. M., Tice, S. , Looi, P. W. , Stein, S. , Joyner, C. , Jolton, J. (1993). Difficult to change knowledge: Explanations and interventions. Occasional paper, Ohio University // g1.

Schur, Y. (2001). Why can't Julie see the moon? Connections between observation of phenomena and science learning. 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. 618-620). Thessaloniki, Greece: Aristotle University of Thessaloniki // g6,P,AS.

Schur, Y. (n.d.). Constructivism & mediated learning experience principles in science teaching. Occasional Paper, Institute for Instrumental Enrichment, Jerusalem, ?, 47-78 // g1,CON,CC,g7,P,AS,g9.

Schuster, D. G. (1983). Research methodology in investigations of students' conceptions in science. In H. Helm, Novak, J. D. (Ed.), Proceedings of the International Seminar "Misconceptions in Science and Mathematics" (pp. 234-238). Ithaca, N. Y.: Cornell University // g5.

Schuster, D. G. (1993). From misconceptions to 'richconceptions'. 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) // g1.

Schwaneberg, R., Heege, R. (1981). Beziehungsdenken und Dingdenken. In D.-F. D. d. Physik (Ed.), Vortraege der Fruehjahrstagung 1981 (pp. 100-106). Giessen: 1. Physikalisches Institut // g6,.

Schwartz, A. T. (2006). Contextualised chemistry education: The American experience. International Journal of Science Education, 28(9), 977-998 // g1, C.

Schwartz, D. L. (1993). The construction and analogical transfer of symbolic visualizations. Journal of Research in Science Teaching, 30(10), 1309-1325 // g6,B,ANA.

Schwartz, D. L., Varma, S., & Martin, L. (2008). Dynamic transfer and innovation. In S. Vosniadou (Ed.), International handbook of research on conceptual change (pp. 479-506). New York: Routledge // g1, CC.

Schwartz, M. S., & Sadler, P. M. (2007). Empowerment in science curriculum development: A micro developmental approach. International Journal of Science Education, 29(8), 987-1018 // g7, P, E, EMAG.

Schwartz, R., & Lederman, N. (2008). What scientists say: Scientists' views of nature of science and relation to science context. International Journal of Science Education, 30(6), 727-773 // g1, g6, g8, CTL, INQUIRY.

Schwartz, R. S., Lederman, N. G. (2002). "It's the nature of the beast": The influence of knowledge and inentions on learning and teaching nature of science. Journal of Research in Science Teaching, 39(3), 205-236 // g8,CSC.

Schwartz, R. S., Lederman, N. G., & Crawford, B. A. (2004). Developing views of nature of science in an authentic context: An explicit approach to bridging the gap between nature of science and scientific inquiry. Science Education, 88(4), 610-645 // g7, CSC.

Schwarz, C., & Gwekwerere, Y. (2007). Using a guided inquiry and modeling instructional framework (EIMA) to support preservice K-8 science teaching. Science Education, 91(1), 158-186 // g1, PCK, g8, CSC, INQUIRY.

Schwarz, C. V., Gnuckel, K. L., Smith, E. L., Covitt, B. A., & Bae, M. (2007). Helping elementary preservice teachers learn to use curriculum materials for effective science teaching. Science Education, 92(2), 345-377 // g8, CTL.

Schwarz, C. V., & White, B. Y. (2005). Metamodeling knowledge: Developing students' understanding of scientific modeling. Cognition and Instruction, 23(2), 165-205 // g7, P, MODEL, MMEDIA.

Schwedes, H. (1973). Die Bestimmung der emotionalen Bedeutung physikalischer Begriffe mit Hilfe des semantischen Differentials. In H. Dahncke (Ed.), Zur Didaktik der Physik und Chemie (pp. 72-85). Hannover: Schroedel // g5.

Schwedes, H., Schilling, P. (1983). Schuelervorstellungen zu Wasserstromkreisen. physica didactica, 10, 159-170 // g6,P,E.

Schwedes, H. (1983). Zur Kontinuitaetsvorstellung bei Wasserstromkreisen und elektrischen Schaltungen. In D.-F. D. d. Physik (Ed.), Vortraege der Fruehjahrstagung 1983 (pp. 264-269). Giessen: 1. Physikalisches Institut // g6,g7,P,E.

Schwedes, H. (1984). The importance of watercircuits in teaching electric circuits. In R. Duit, Jung, W. , Rhoeneck, C. von (Ed.), Aspects of understanding electricity electricity. Proceedings of a workshop (pp. 11-19). Ludwigsburg: Paedagogische Hochschule // g6,P,E.

Schwedes, H., Schmidt, D. (1992). Conceptual change: A case study and theoretical comments. In R. Duit, Goldberg, F. , Niedderer, H. (Ed.), Research in physics learning: Theoretical issues and empirical studies (pp. 188-202). Kiel: IPN // g5,g7,P,E,ANA.

Schwedes, H., Dudeck, W.-G. (1992). Die Benutzung von Analogien im Physikunterricht. In D. P. G. F. D. d. Physik (Ed.), Didaktik der Physik (pp. 184-189). Berlin: Technische Universitaet Berlin, Institut fuer Fachdidaktik Physik und Lehrerbildung // g6,P,E,ANA.

Schwedes, H. (1992). Ziele und Perspektiven einer Lernprozessforschung unter konstruktivistischem Paradigma. In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie. Probleme und Perspektiven. Vortraege auf der Tagung fuer Didaktik der Physik/Chemie in Hamburg, September 1991 (pp. 346-348). Alsbach: Leuchtturm // g1.

Schwedes, H., Dudeck, W.-G. (1993). Lernen mit der Wasseranalogie. Naturwissenschaften im Unterricht Physik, 4(16), 16-23 // g7,P,E,ANA.

Schwedes, H. (1995). Analogies and learning. In D. Psillos (Ed.), European Research in Science Education II (pp. 37-56). Thessaloniki: Art of Text S. A. // g1,ANA.

Schwedes, H. (1996). Analogie-orientierte Elektrizitaetslehre als Aufbau mentaler Modelle. In R. Duit, Rhoeneck, C. von (Ed.), Lernen in den Naturwissenschaften (pp. 275-300). Kiel: IPN, Kiel // g1,MM,g7,P,E,ANA,.

Schwedes, H., Lamsfuss, T. , Seibel, C. (1996). Lernprozessuntersuchungen zweier Schuelerinnen im Vergleich bei der Auseinandersetzung mit dem Thema Kurzschluss. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie: Probleme und Perspektiven (pp. 170-172). Alsbach/Bergstrasse: Leuchtturm-Verlag // g6,P,E,LPRO.

Schwedes, H., Dudeck, W. (1996). Teaching electricity by help of a water analogy (How to cope with the need for conceptual change). In G. Welford, Osborne, J. , Scott, P. (Ed.), Research in Science Education in Europe (pp. 50-63). London: The Falmer Press // g7,P,E,ANA.

Schwedes, H. (2001). Conceptual change or overcoming learning difficulties step by step learning-processess in analogy-based instruction about electricity. 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. 621-623). Thessaloniki, Greece: Aristotle University of Thessaloniki // g7,P,E,CIRCUIT,LPRO,ANA.

Schwedes, H., Schick, A. (2001). Indentifizierung von Interessenhandlungen im Physikunterricht. In S. v. Aufschnaiter, Welzel, M. (Ed.), Nutzung von Videodaten zur Untersuchung von Lehr-Lern-Prozessen (pp. 185-202). Muenster: Waxmann // g7,P,E,CIRC,ANA,AFF,VIDEO.

Schwille, K., Givvin, K., & Chen, C. (2007). The use of videocases in preservice teacher education: The Vista project. Paper presented at the NARST 2007 Annual Meeting, New Orleans // g8, CTL, VIDEO.

Scott, P. (1996). Social interactions and personal meaning making in secondary science classrooms. In G. Welford, Osborne, J. , Scott, P. (Ed.), Research in Science Education in Europe (pp. 325-336). London: The Falmer Press // g1,VYGOTSKY,g7,P.

Scott, P., & Jewitt, C. (2003). Talk, action and visual communication in teaching and learning science. School Science Review, 84(308), 117-124 // g7, P, MAG, DISCOURSE.

Scott, P., & Mortimer, E. (2005). Meaning making in high school science classrooms: A framework for analysing meaning making interactions. In K. Boersma, M. Goedhart, O. De Jong & H. Eijkelhof (Eds.), Research and the quality of science education (pp. 395-406). Dordrecht: Springer // g1, DISCOURSE, SCON, gp.

Scott, P. H. (1987). The process of conceptual change in science: a case study of the development of a secondary pupil's ideas relating to matter. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. II (pp. 404-419). Ithaca: Cornell University // g6,g7,P,AT.

Scott, P. H. (1990). Conceptual change in the science classroom a case study of the development of one pupil's ideas relating to matter. Occasional paper from the Children's Learning in Science Research Group. Centre for Studies in Science and Mathematics Education. The University of Leeds, 1-28 // g6,g7,P,AT,CTL.

Scott, P. H. (1992). Pathways in learning science: A case study of the development of one student's ideas relating to the structure of matter. In R. Duit, Goldberg, F. , Niedderer, H. (Ed.), Research in physics learning: Theoretical issues and empirical studies (pp. 203-224). Kiel: IPN // g6,g7,P,AT,CTL.

Scott, P. H., Asoko, H. M. , Driver, R. (1992). Teaching for conceptual change: A review of strategies. In R. Duit, Goldberg, F. , Niedderer, H. (Ed.), Research in physics learning: Theoretical issues and empirical studies (pp. 310-329). Kiel: IPN // g1.

Scott, P. H. (1993). Overtures to obstacles: Teaching and learning about air pressure in a high school classroom. 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,P,M.

Scott, P. H., Driver, R. H. (1998). Learning about science teaching: Perspectives from an action research project. In B. J. Fraser, Tobin, K. G. (Ed.), International handbook of Science Education, Part 1 (pp. 67-80). Dordrecht, Netherlands: Kluwer Academic Press // g1,CON,g7.

Scott, P. H., Asoko, H., & Leach, J. T. (2007). Student conceptions and conceptual learning in science. In S. K. Abell & N. G. Lederman (Eds.), Handbook of research on science education (pp. 31-56). Mahwah: Lawrence Erlbaum Associates // g1,PIAGET, CC, VYGOTSKY, SCON, SITL.

Scott, P. H., Mortimer, E. F., & Aguiar, O. G. (2006). The tension between authoritative and dialogic discourse: A fundamental characteristic of meaning making interactions in high school science lessons. Science Education, 90(4), 605-631 // g1, DISCOURSE, VYGOTSKY, gp.

Scott, P. H. A., H. , Driver, R. , Emberton, J. (1994). Learning from children's ideas: Planning and teaching a chemistry topic from a constructivist perspective. In P. Fensham, Gunstone, R. , White, R. (Ed.), The content of science (pp. 201-220). London: The Falmer Press // g7,C,.

Scriven, E. G. (1967). An analysis of types of concepts used by fourth through ninth graders in written explanations of scientific terms. Ithaca, N. Y.: Cornell University // g6.

Searle, P. (1985). Circular motion concepts of first year engeneering students. Research in Science Education, 15, 140-150 // g6,P,M.

Sebald, D., Haeusler, K. (1987). Was wissen Schueler der Primarstufe von Saeuren ? Naturwissenschaften im Unterricht - Physik/Chemie, 35, 290 // g6,C.

Sebastia, J. M. (1987). Cognitive constraints and spontaneous interpretations in physics. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar Misconceptions and Educational Strategies in Science and Mathematics, Vol. I (pp. 405-412). Ithaca: Cornell University // g1.

Sebastia, J. M. (1989). Cognitive constraints and spontaneous interpretations in physics. International Journal of Science Education, 11(4), 363-369 // g1.

Seddon, G. M., Pedrosa, M. A. (1988). A comparsion of students' explanations derived from spoken and written methods of questioning and answering. International Journal of Science Education, 10(3), 337-342 // g5.

Seddon, T. (1991). Rethinking teachers and teacher education in science. Studies in Science Education, 19, 95-117 // g9.

Sedgwick, P. P., Linke, R. D. , Lucas, A. M. (1978). A comparison of changes in children's concepts of life with the development of relevant criteria in Australian science curriculum materials. Research in Science Education, 8, 195-203 // g6,B.

Sefton, I. M. (1993). Overcoming misconceptions by challenging text-book orthodoxy. 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) // g1.

Segarra, M. P. (2001). Aiding teachers to build a construcitve view of their teaching. In R. Pinto, Surinach, S. (Ed.), Physics Teacher Education Beyond 2000 (pp. 411-414). Paris: Elsevier // g9.

Segarra, P. (1993). Helping students to develop the concepts related with wave movement through laboratory experiences. 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,P,M.