Students‘ and Teachers‘ Conceptions and Science Education




НазваниеStudents‘ and Teachers‘ Conceptions and Science Education
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Zur Didaktik der Physik und Chemie. Probleme und Perspektiven (pp. 325-327). Alsbach: Leuchtturm-Verlag // g1,CON,g7.

Aufschnaiter, S. v., Duit, R. , Fillbrand, H. , Niedderer, H. (1970). Der einfache elektrische Stromkreis im 5. und 6. Schuljahr. Naturwissenschaften im Unterricht - Physik/Chemie, 18(4), 135-143, 182-188 // g6,P,E.

Aufschnaiter, S. v., Fischer, H. , Schmidt, D. , Schwedes, H. . (1990). Ein "konstruktivistisches" Forschungsprogramm zur Untersuchung von Denk- und Lernprozessen. 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. 232-234). Alsbach: Leuchtturm // g1.

Aufschnaiter, S. v., Fischer, H. E. (1991). Am Beispiel Ladung: Ist Lernen Ergebnis der Kommunikation mit einer objektiven Realitaet oder realitaetsunabhaengige Entwicklung subjektiver Vorstellungen ? In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie. Vortraege auf der Tagung fuer Didaktik der Physik und Chemie in Weingarten (pp. 300-305). Alsbach: Leuchtturm // g1,g6,P,E.

Aufschnaiter, S. v. (1991). Lernen ist Selbstentwicklung eines kognitiven Systems. In H. Wiesner (Ed.), Aufsaetze zur Didaktik der Physik II. Festschrift zum 65. Geburtstag von Walter Jung (pp. 1-11). Bad Salzdetfurth: Franzbecker // g1.

Aufschnaiter, S. v., Fischer, H. E. , Schwedes, H. (1992). Kinder konstruieren Welten. In S. J. Schmidt (Ed.), Kognition und Gesellschaft (pp. 380-424). Frankfurt: Suhrkamp Taschenbuch Wissenschaft // g1,g7,P,E.

Aufschnaiter, S. v., Wetzstein, M. (1993). Lernergebnisse zu einer Unterrichtseinheit Elektrostatik. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie (pp. 301-303). Alsbach: Leuchtturm // g6,g7,P,E.

Aufschnaiter, S. v., Fischer, H. E. , Welzel, M. , Breuer, E. , Langensiepen, B. (1994). Wie Schueler im Physikunterricht lernen - Didaktische Untersuchungen. In J. Bruhn (Ed.), Didaktik der Physik - Vortraege Fruehjahrstagung 1994 Hamburg (pp. 273-278). Hamburg: Deutsche Physikalische Gesellschaft // g1,g5.

Aufschnaiter, S. v., Fischer, H. -E. , Welzel, M. (1995). LiPs - Lernprozesse im Physikstudium - Anlage der Untersuchung. In H. Behrendt (Ed.), Zur Didaktik der Physik und Chemie - Probleme und Perspektiven - Vortraege auf der Tagung fuer Didaktik der Physik / Chemie in Dresden, September 1995 (pp. 189-191). Alsbach: Leuchtturm-Verlag // g6,P,E.

Aufschnaiter, S. v., Welzel, M. (1996). Beschreibung von Lernprozessen. In R. Duit, Rhoeneck, C. von (Ed.), Lernen in den Naturwissenschaften (pp. 301-327). Kiel: IPN, Kiel // g1,CON,g7,P,E,LPRO.

Aufschnaiter, S. v. (1999). Development of complexity by dealing with physical qualities: One type of conceptual change? 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. 61-64). Kiel: IPN Kiel // g1,RCON,CC.

Aufschnaiter, S. v., Aufschnaiter, C.v., Schoster, A. (2000). Zur Dynamik von Bedeutungsentwicklungen unterschiedlicher Schüler(innen) bei der Bearbeitung derselben Physik-Aufgaben. Zeitschrift fuer Didaktik der Naturwissenschaften, 6, 37-57 // g7, P, E, ESTAT, LPRO, VIDEO.

Aufschnaiter, S. v. (2001). Development of complexity through dealing with physical qualities: One type of conceptual change? In H. Behrendt, Dahncke, H. , Duit, R. , Graeber, W. , Komorek, M. , Kross, A. (Ed.), Research in Science Education - Past, Present, and Future (pp. 199-204). Dordrecht,The Netherlands: Kluwer Academic Publishers // g1,CC.

Aufschnaiter, S. v., Welzel, M. (2001). Nutzung von Videodaten zur Untersuchung von Lehr-Lern-Prozessen. Muenster: Waxmann // g5,g6,LPRO,VIDEO.

Ault, C. R. (1983). Children's intelligently wrong grasp of unobvious meaning. Paper submitted to Science Education, 1-17 // g1.

Ault, C. R., Novak, J. D. , Gowin, D. B. (1984). Constructing vee maps for clinical interviews on molecule concepts. Science Education, 68, 441-462 // g5,g6,P,AT.

Ault, C. R. (1984). Intelligently wrong. Some comments on children's misconceptions. Science and Children, 21(8), 22-24 // g1.

Ault, C. R. (1985). Concept mapping as a study strategy in earth science. Journal of College Science Teaching, 15, 38-44 // g5.

Ault, C. R. (1987). Interview studies in teacher education: examples from extraordinary contexts. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. II (pp. 25-29). Ithaca: Cornell University // g1,g6,P,O,S.

Ausubel, D. P. (1974). Psychologie des Unterrichts. Band 1. Weinheim, Basel: Beltz // g1.

Avraamidou, L., & Zembal-Saul, C. (2005). Giving priority to evidence in science teaching: A first-year elementary teacher's specialized practices and knowledge. Journal of Research in Science Teaching, 42(9), 965-986 // g8, CTL, VIDEO.

Ayas, A., Demirbas, A. (1997). Turkish secondary students' conceptions of introductory chemistry concepts. Journal of Chemical Education, 74(5), 518-521 // g6,C.

Aypay, A., Erdogan, M., & Sözer, M. (2007). Variation among schools on classroom practices in science based on TIMSS-1999 in Turkey. Journal of Research in Science Teaching, 44(10), 1417-1435 // g7.

Azaiza, I., Bar, V., & Galili, I. (2006). Learning electricity in elementary school. International Journal of Science and Mathematics Education, 4(1), 45-71 // g6, g7, P, E, CIRCUIT.

Baalmann, W., Frerichs, V. , Illner, R. (1998). Educational reconstruction - examples in the field of genetics and evolution. In H. Bayrhuber, Brinkman, F. (Ed.), What - Why - How? Research in Didaktik of Biology (pp. 273-282). Kiel: IPN - Materialien // g6,B.

Baalmann, W., von Ossietzky, C. (1998). Evolution im Unterricht - Schuelervorstellungen als Voraussetzung und Chance. In P. Gilbert, Mack, G. , Mank, K.-J. (Ed.), Heft 59: Bericht ueber die 11. Tagung der Fachleiter fuer Biologie an den Seminaren fuer Lehrerausbildung in der BRD (pp. 85-92). Weilburg: Schriften des Deutschen Vereins zur Foerderung des mathematischen und naturwissenschaftlichen Unterrichts e.V. // g6,B.

Baalmann, W., Frerichs, V. , Kattmann, U. (1998). Warum die Gorillas schwarz wurden - Didaktische Rekonstruktion in den Bereichen Genetik und Evolution. In H. Guenther-Arndt (Ed.), Fachdidaktik als Zentrum professioneller Lehrerbildung (pp. 35-50). Oldenburg: Oldenburger Vor-Drucke // g6,B,GENETICS,EVOLUTION.

Baalmann, W., Frerichs, V. , Kattmann, U. (1999). How the gorillas became dark - reserach in students´ conceptions to a rearrangement of teaching genetics and evolution. In O. de Jong, Kortland, K. , Waarlo, A. J. , Buddingh, J. (Ed.), Bridging the gap between theory and practice: What research says to the science teacher (pp. 171-189). Utrecht, The Netherlands: Utrecht Universitiy // g6,B.

Baalmann, W., Frerichs, V., Weitzel, H., Gropengießer, H., & Kattmann, U. (2004). Schülervorstellungen zu Prozessen der Anpassung - Ergebnisse einer Interviewstudie im Rahmen der Didaktischen Rekonstruktion. Zeitschrift für Didaktik der Naturwissenschaften, 10, 7-28 // g7, B, EVOLUTION.

Bach, S. (1984). Systematische und empirische Untersuchungen ueber das Verhaeltnis von Umgangssprache und Fachsprache im gymnasialen Physikunterricht. Hamburg: Universitaet Hamburg // g4.

Bach, S. (1987). Syntax-abhaengige Auffassungsweisen physikalischer Vorgaenge am Beispiel des Leidenfrostschen Phaenomens. In W. Kuhn (Ed.), Didaktik der Physik. Vortraege der Physikertagung 1987 in Berlin (pp. 258-263). Giessen: DPG Fachausschuss Didaktik der Physik // g4,g6,P,T.

Bach, S. (1987). Zyklische Bedeutungsvertauschung zwischen einigen physikalischen Grundbegriffen - semantische und syntaktische Aspekte des Problems. In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie. Vortraege auf der Tagung fuer Didaktik der Physik/Chemie in Oldenburg 1986 (pp. 223-225). Alsbach: Leuchtturm // g4.

Bach, S. (1988). Quantitative Aussagen ueber Ursachen kognitiver Defekte durch Verwendung von Fachbegriffen umgangssprachlicher Herkunft. In W. Kuhn (Ed.), Didaktik der Physik. Vortraege der Physikertagung in Giessen (pp. 207-211). Giessen: DPG Fachausschuss Didaktik der Physik // g4.

Bach, S. (1988). Schuelerprognosen ueber Mischungstemperaturen. In K. H. Wiebel (Ed.), Zur Didaktik der Physik und Chemie. Vortraege auf der Tagung f. Didaktik d. Physik/Chemie, September 1987 (pp. 287-289). Nuernberg: Leuchtturm-Verlag, Alsbach // g6,P,T,GEN.

Baddock, M., & Bucat, R. (2008). Effectiveness of a classroom chemistry demonstration using the cognitive conflict strategy. International Journal of Science Education, 30(8), 1115-1128 // g7, C.

Bader, M., Wiesner, H. (1999). Einfuehrung in die mechanische Energie und Waermelehre. Physik in der Schule, 37(6), 363-367 // g7,EN,T.

Baer, A., Bünder, W., & Parchmann, I. (2006). Lehrkräfte in Innovationsprozessen: eine Interviewstudie. In A. Pitton (Ed.), Lehren und Lernen mit neuen Medien (Vol. 26, pp. 150-152). Münster: LIT Verlag // g8, CTL, C.

Bagno, E., Eylon, B. , Ganiel, U. (1993). Integrating domains of physics: Learning strategies and the role of teachers. In J. Novak (Ed.), Proceedings of Third International Seminar on Misconceptions and Educational Strategies in Science and Mathematics. Ithaca, New York: Cornell University (distributed electronically) // g7,P,M.

Bahar, M., Johnstone, A. H. , Hansell, M. H. (1999). Revisiting learning difficulties in biology. Journal of Biological Education, 33(2), 84-86 // g6,B.

Bailenson, J. N., Shum, M. S., Atran, S., Medin, D. L., Coley, J. D. (2002). A bird's eye view: Biological categorization and reasoning within and across cultures. Cognition, 84, 1-53 // g6, B, BIODIV.

Bailey, J., Francis, R. G. , Hill, D. M. (1987). Exploring ideas about magnets. Research in Science Education, 17, 113-116 // g6,P,MAG,.

Bailey, J. M., & Slater, T. F. (2005). Resource letter AER-1: Astronomy education research. American Journal of Physics, 73(8), 677-683 // g6, g7, P, AS.

Bailey, S., Watson, R. (1998). Establishing basic ecological understanding in younger pupils: A pilot evaluation of a strategy based on drama/role play. International Journal of Science Education, 20(2), 139-152 // g7,B.

Baimba, A. (1992). Physics teachers' action-research experience with a teaching module on "force". Research in Science Education, 22, 30-37 // g7,P,M,.

Baird, J. R., White, R. T. (1982). A case study of learning styles in biology. European Journal of Science Education, 4(3), 325-337 // g6,B.

Baird, J. R., Mitchell, I. J. (1986). Improving the quality of teaching and learning - an Australian case study. Melbourne: The Monash University Printery // g1,g6,g8,g9,CTL.

Baird, J. R., Fensham, P. J. , Gunstone, R. F. , White, R. T. (1987). Individual development during teacher training. Research in Science Education, 17, 182-191 // g6,P,M,EN,CTL.

Baird, J. R., Mitchell, I. J. , Northfield, J. R. (1987). Teachers as researchers: The rationale, the reality. Research in Science Education, 17, 129-138 // g1,g9.

Baird, J. R. (1988). Teachers in Science Education. In P. Fensham (Ed.), Development and dilemmas in Science Education (pp. 55-72). London, New York, Philadelphia: The Falmer Press // g9.

Baird, J. R. (1989). Intellectual and methological imperatives for individual teacher development. Paper presented at the annual meeting of the American Educational Research Association, San Francisco, 1-14 // g9.

Baird, J. R., Fensham, P. J. , Gunstone, R. F. , White, R. T. (1989). A study of the importance of reflection for improving science teaching and learning. Paper presented at the annual meeting of the National Association for Research in Science Teaching, San Francisco // g8,g9,CTL.

Baird, J. R., Fensham, P. J. , Gunstone, R. F. , White, R. T. (1989). Teaching and learning science in schools. A report of research in progress. Melbourne: Monash University // g8,g9,CTL.

Baird, J. R., Gunstone, R. F. , Penna, C. , Fensham, P. J. , White, R. T. (1990). Researching balance between cognition and affect in science teaching and learning. Research in Science Education, 20, 11-20 // g8,CTL.

Baird, J. R. (1992). Collaborative reflection, systematic enquiry, better teaching. In T. Russell, Munby, H. (Ed.), Teachers and teaching (pp. 33-48). London, New York, Philadelphia: The Falmer Press // g8,CTL.

Baird, J. R., Northfield, J. R. (1992). Learning from the PEEL experience. Melbourne, Victoria: Monash University Printing Services // g1,g6,g8,g9,CTL.

Baird, J. R., White, R. (1996). Metacognitive strategies in the classroom. In D. F. Treagust, Duit, R. , Fraser, B. J. (Ed.), Improving teaching and learning in science and mathematics (pp. 190-200). New York: Teachers College Press // g9.

Baird, J. R. (1998). A view of quality in teaching. In B. J. Fraser, Tobin, K. G. (Ed.), International handbook of Science Education, Part 1 (pp. 153-167). Dordrecht, Netherlands: Kluwer Academic Press // g8,CTL.

Bakar, E., Bal, S., & Akcay, H. (2006). Preservice science teachers beliefs about science-technology and their implication in society. Eurasia Journal of Mathematics, Science and Technology Education, 2(3), 18 - 32 // g8, STS.

Bakas, C., Mikropoulos, T. A. (2003). Design of virtual environments for the comprehension of planetary phenomena based on students' ideas. International Journal of Science Education, 25(8), 949-967 // g7, P, AS, MMEDIA.

Baker, D., Taylor, P. C. S. (1995). The effect of culture on the learning of science in non-western countries: The results of an integrated research review. International Journal of Science Education, 17(6), 695-704 // g1.

Baker, D. R. (1991). A summary of research in Science Education - 1989. Science Education, 75(3), 255-256, 324-330 // g1.

Baker, D. R. (1992). Learning science: Insights from research on teaching and assessment. In H.-J. Schmidt (Ed.), Empirical research in chemistry and physics education (pp. 9-23). Dortmund, Hongkong: The International Council of Association for Science Education // g1,ANA.

Baker, W. P., Lawson, A. E. (2001). Complex instructional analogies and theoretical concept acquisition in college genetics. Science Education, 85(6), 665-683 // g7, B, GENETICS, ANA, AFF.

Bal, S., Samanci, N. K., & Bozkurt, O. (2007). University students' knowledge and attitude about genetic engineering. Eurasia Journal of Mathematics, Science and Technology Education, 3(2), 119-126 // g6, B, GENETICS, BIOTECH, AFF.

Baldissera, J. A. (1993). Misconceptions of 'revolution' in history textbooks and their effects on meaningful 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) // g10.

Baldy, E. (2007). A new educational perspective for teaching gravity. International Journal of Science Education, 29(14), 1767-1788 // g7, P, M, GRAV.

Ballone-Duran, L., Czerniak, C. M., & Haney, J. J. (2005). A study of the effects of a LSC project on scientists’ teaching practices and beliefs. Journal of Science Teacher Education, 16(2), 159-184 // g8, CTL, g9.

Bamberger, Y., & Tal, T. (2007). Learning in a personal context: Levels of choice in a free choice learning environment in science and natural history museums.
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