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

Sherwood, R. D., Petrosino, A. J. , Lin, X. , Lamon, M. (1995). Problem based macro contexts in science instruction: Theoretical basis, design issues, and the development of applications. In D. R. Lavoie (Ed.), Toward a cognitive-science perspective for scientific problem solving (pp. 191-214). Manhattan, Kansas: NARST // g1,g7.

Sherwood, R. D., Petrosino, A.J. , Lin, X. , Cognition and Technology Group at Vanderbilt. (1998). Problem-based macro contexts in science instruction: design issues and applications. In B. J. Fraser, Tobin, K. G. (Ed.), International handbook of Science Education, Part 1 (pp. 349-362). Dordrecht, Netherlands: Kluwer Academic Press // g1,MMEDIA.

Sherwood, R. D., & Hanson, D. L. (2008). A review and analysis of the NSF portfolio in regard to research on science teacher education. Electronic Journal of Science Education, 12(1), 20-38 // g8.

Shiao, Y.-S. (2001). Children's discourse and conceptual change about plants. 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. 844-846). Thessaloniki, Greece: Aristotle University of Thessaloniki // g7,B,BIODIVERSE,DISCOURSE.

Shibley, I. A., Milakofsky, L., Bender, D. S., & Patterson, H. O. (2003). College chemistry and Piaget: An analysis of gender difference, cognitive abilities, and achievement measures seventeen years apart. Journal of Chemical Education, 80(5), 569-573 // g6, C, GEN.

Shieh, S.-H. (2004). Investigating science teachers' beliefs about assessment in the elementary school. Paper presented at the NARST Conference 2004, VANCOUVER // g8, CTL.

Shiland, T. (1997). Quantum mechanics and conceptual change in high school chemistry textbooks. Journal of Research in Science Teaching, 34(5), 535-545 // g7,C,Q.

Shimoda, T., White, B.Y., Frederiksen, J.R. (2001). Student goal orientation in learning inquiry skills with modifiable software advisors. Science Education, 86(2), 244-263 // g7,B,HUMAN,MMEDIA.

Shin, N., Jonassen, D. H., Mc Gee, S. (2003). Predictors of well-structured and ill-structured problem solving in an astronomy simulation. Journal of Research in Science Teaching, 40(1), 6-33 // g7, P, AT, MMEDIA, PROSOL.

Shipman, H. L., Brickhouse, N.W., Dagher, Z., Letts IV, W.J. (2001). Changes in student views of religion and science in a college astronomy course. Science Education, 86(4), 526-547 // g6,CTL,RELIGION.

Shipstone, D. M. (1983). A study of secondary school pupils' understanding of current, voltage and resistance in simple DC circuits. Nottingham: University of Nottingham, School of Education // g6,P,E,GEN.

Shipstone, D. M. (1984). A study of children's understanding of electricity in simple DC circuits. European Journal of Science Education, 6(2), 185-188 // g6,P,E,GEN.

Shipstone, D. M. (1985). Electricity in simple circuits. In R. Driver, Guesne, E. , Tiberghien, A. (Ed.), Children's ideas in science (pp. 33-51). Milton Keynes: Open University Press // g6,g7,P,E,ANA.

Shipstone, D. M. (1985). On children's use of conceptual models in reasoning about current electricity. In R. Duit, Jung, W. , Rhoeneck, C. von (Ed.), Aspects of understanding electricity (pp. 73-82). Kiel: Schmidt & Klaunig // g6,P,E.

Shipstone, D. M., Gunstone, R. F. (1985). Teaching children to discriminate between current and energy. In R. Duit, Jung, W. , Rhoeneck, C. von (Ed.), Aspects of understanding electricity (pp. 287-297). Kiel: Schmidt & Klaunig // g7,P,E.

Shipstone, D. M. (1988). Pupils' understanding of simple electrical circuits - Some implications for instruction. Physics Education, 23, 92-96 // g6,g7,P,E.

Shipstone, D. M., Rhoeneck, C. von, Jung, W. , Kaerrquist, C. , Dupin, J. J. , Johsua, S. , Licht, P. (1988). A study of students' understanding of electricity in five European countries. International Journal of Science Education, 10(3), 303-316 // g6,P,E.

Shuell, T. (1987). Cognitive psychology and conceptual change: implications for teaching science. Science Education, 71(2), 239-250 // g1.

Shuell, T. J. (1985). Knowledge representation, cognitive structure and school learning: A historical perspective. In L. West, Pines, L. (Ed.), Cognitive structure and conceptual change (pp. 117-130). Orlando: Academic Press // g1,g5.

Shulman, L., Tamir, P. (1973). Research on Teaching in the Natural Sciences. In R. M. W. Travers (Ed.), Second Handbook of Research on Teaching (pp. 1098-1148). Chicago, IL: Rand McNally // g1.

Shultz, T. R., Coddington, M. (1981). Development of the concepts of energy conservation and entropy. Journal of Experimental Child Psychology, 31(1), 131-153 // g6,P,EN,ENT,IRR.

Shumba, O. (1999). Relationship between secondary science teachers´ orientation to traditional culture and beliefs concerning science instructional ideology. Journal of Research in Science Teaching, 36(3), 333-356 // g8,CSC.

Shymansky, J., Yore, L. , Treagust, D. , Thiele, R. , Harrison, A. , Waldrip, B. , Stocklmayer, S. , Venville, G. (1997). Examining the construction process: A study of changes in level 10 students' understanding of classical mechanics. Journal of Research in Science Teaching, 34(6), 571-593 // g7,P,M,FORCE.

Shymansky, J. A., Norman, O. , Woodworth, G. , Dunkhase, J. A. , Matthews, C. , Liu, C. T. , Huang, H. -J. (1990). Constructivist ideas as a basic for inservice teacher education: First year results of a program to enhance middle school teachers' understanding of target concepts in the area of electricity and simple circuitry. Paper presented to the annual meeting of the National Association for Research in Science Teaching, 1-15 // g9.

Shymansky, J. A., Matthews, C. (1993). Focus on children's ideas about science - An integrated program of instructional planning and teacher enhancement from the constructivist perspective. 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) // g9.

Shymansky, J. A., Woodworth, G. , Norman, O. , Dunkhase, J. A. , Matthews, C. , Liu, C.-T. (1993). A study of changes in middle school teachers' understanding of selected ideas in science as a function of an in-service program focusing on student preconceptions. Journal of Research in Science Teaching, 30(7), 737-755 // g8,g9,CTL,P,C,B.

Shymansky, J. A., Treagust, D. F. , Thiele, R. B. , Harrison, A. G. , Waldrip, B. G. , Stocklmayer, S. M. , Venville, G. (1993). A study of changes in student understanding of force, motion, work and energy. Paper presented at the National Association for Research in Science Teaching, Atlanta, 1-30 // g6,P,M,EN.

Sieben, G. (1987). Introducing concept mapping in the day to day science curriculum. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. II (pp. 436-446). Ithaca: Cornell University // g7.

Siegel, D., Esterly, J., Callanan, M., Wright, R., & Navarro, R. (2007). Conversations about science across activities in Mexican.descent families. International Journal of Science Education, 29(12), 1447-1466 // g7, INFORMAL.

Siegel, H. (2002). Multiculturalism, universalism, and science education: In search of common ground. Science Education, 86(6), 803-820 // g1.

Siegel, L. S., Brainerd, C. J. (1978). Alternatives to Piaget. Critical essays on the theory. New York: Academic Press // g1.

Siegler, R. S. (1976). The effects of simple necessity and sufficiency relationship on children's causal interferences. Child Development, 47(3), 1058-1063 // g6.

Siegler, R. S., & Svetina, M. (2008). Relations between short- and long-term changes in children's thinking. In S. Vosniadou (Ed.), International handbook of research on conceptual change (pp. 102-123). New York: Routledge // g1, CC, g5.

Siemsen, F. (1981). Das Himmelsblau. physica didactica, 8, 131-163 // g6,P,O.

Silfverberg, H. (2006). The disappearance of light - explanations given by the primary school pupils. NorDiNA - Nordic Studies in Science Education(5), 43-53 // g6, P, O, LIGHT.

Simmons, P. E. (1987). Misconceptions of experts and novices during a genetics computer simulation. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. II (pp. 447-451). Ithaca: Cornell University // g7.

Simmons, P. E., Kinnear, J. F. (1990). A research method using microcomputers to assess conceptual understanding and problem solving. Research in Science Education, 20(2), 263-271 // g5.

Simmons, P. E. (1991). Learning science in software microworlds. In S. M. Glynn, Yeany, R. H. , Britton, B. K. (Ed.), The psychology of learning science (pp. 241-256). Hillsdale: Lawrence Erlbaum Associates // g7.

Simmons, P. E., Lunetta, V. N. (1993). Problem-solving behaviors during a genetics computer simulation: Beyond the expert/novice dichotomy. Journal of Research in Science Teaching, 30(2), 153-173 // g6,B.

Simmons, P. E., Emroy, A. , Carter, T. , Coker, T. , Finnegan, B. , Crockett, D. , Richardson, L. , Yager, R. , Craven, J. , Tilotson, J. , Brunkhorst, H. , Twiest, M. , Hossain, K. , Gallagher, J. , Duggan-Haas, D. , Parker, J. , Cajas, F. , Alshannag, Q. , McGlamery, S. , Krockover, J. , Adams, P. , Spector, B. , LaPorta, T. , James, B. , Rearden, K. , Labuda, K. (1999). Beginning teachers: Beliefs and classroom actions. Journal of Research in Science Teaching, 36(8), 930-954 // g1,CON,g8,CTL,CSC,AFF,VIDEO.

Simon, H. A., Hayes, J. R. (1976). The understanding process: Problem isomorphs. Cognitive Psychology, 8(2), 165-190 // g1.

Simon, S., Erduran, S., & Osborne, J. (2006). Learning to teach argumentation: Research and development in the science classroom. International Journal of Science Education, 28(2-3), 235-260 // g8, CTL, ARGUMENTATION.

Simon, S., & Johnson, S. (2008). Professional learning portfolios for argumentation in school science. International Journal of Science Education, 30(5), 669-688 // g8, CTL, ARGUMENTATION.

Simon, S., Naylor, S., Keogh, B., Maloney, J., & Downing, B. (2008). Puppets promoting engagement and talk in science. International Journal of Science Education, 30(9), 1229-1248 // g7, DISCOURSE.

Simonneaux, L., Bourdon, A. (1998). Antigen, Antibody, Antibiotics, ... anti-what? What did you say that was? In H. Bayrhuber, Brinkman, F. (Ed.), What - Why - How? Research in Didaktik of Biology (pp. 233-242). Kiel: IPN - Materialien // g6,B.

Simonneaux, L. (2000). A study of pupils' conceptions and reasoning in connection with 'microbes', as a contribution to research in biotechnology education. International Journal of Science Education, 22(6), 619-644 // g6,B.

Simonneaux, L. (2003). Different types of classroom debates on biotechnology. - Are these simply an exercise in rhetoric or do they encourage a well-founded critical attitude. In D. Psillos, Kariotoglou, P., Tselfes, V., Hatzikraniotis, E., Fassoulopoulos, G., Kallery, M. (Ed.), Science education research in the knowledge-based society (pp. 285-293). Dordrecht, The Netherlands: Kluwer Academic Publishers // g7, B, BIOTECHNOLOGY.

Simonneaux, L., Albe, V., Ducamp, C., & Simonneaux, J. (2005). Do high-school students' perceptions of science change when addressed directly by researchers? Eurasia Journal of Mathematics, Science and Technology Education, 1(1), 21-40 // g7, CSC.

Simons, D. J., Keil, F. C. (1995). An abstract to concrete shift in the development of biological thought: The insides story. Cognition, 56(2), 129-163 // g6,B.

Simpson, D. (1997). Collaborative conversations. The Science Teacher, 64(8), 40-43 // g7,DISCOURSE.

Simpson, D. (1997). Collaborative conversations - Strategies for engaging students in productive dialogues. The Science Teacher, 64(8), 40-43 // g7,DISCOURSE.

Simpson, M., Arnold, B. (1982). Availability of prerequisite concepts for learning biology at certificate level. Journal of Biological Education, 16(1), 65-72 // g6,P,EN,M,B.

Simpson, M., Arnold, B. (1982). Educational psychology and the teaching of specialist subjects. Scottish Educational Review, 14(2), 109-117 // g6,g7,B.

Simpson, M., Arnolds, B. (1982). The inappropriate use of subsumers in biology learning. European Journal of Science Education, 4(2), 173-182 // g6,B.

Simpson, M., Arnold, B. (1983). Diagnostic tests and criterion-referenced assessment: Their contribution to the resolution of pupil learning difficulties. Programmed Learning and Educational Technology, 20(1), 36-42 // g1,g6,g7,B.

Simpson, M., Arnold, B. (1984). Diagnosis in action. Aberdeen: Aberdeen College of Education // g6,g7,P,EN,AT,B.

Simpson, M. (1985). Diagnostic assessment and its contribution to pupils' learning. In S. Brown, Munn, P. (Ed.), The changing face of education 14 to 16: Curriculum and assessment (pp. 69-81). Aberdeen: NFER-Nelson // g1,g7.

Simpson, M. (1986). Inside the secondary school classroom. Inspectorate Bulletin/Scottish Education Department // g1.

Simpson, M., Arnold, B. (1986). Readings on learning difficulties in secondary school science - reprints from ACE biology newsletter. Aberdeen: Aberdeen College of Education // g6,g7,B.

Simpson, M. (1987). Suspect psychology in science education. Times Educational Supplement(Apr. 3rd) // g1.

Simpson, W. D., Marek, E. A. (1988). Understandings and miscocnceptions of biology concepts held by students attending small high schools and students attending large high schools. Journal of Research in Science Teaching, 25(5), 361-374 // g6,B.

Sinatra, G. (2004). A little knowledge is a dangerous thing: Using beliefs and dispositions to make judgements about the validity of science theories. Paper presented at the NARST Conference 2004, VANCOUVER // g6, CSC, B, EVOLUTION.

Sinatra, G. M., Dole, J. A. (1998). Case studies in conceptual change: A social psychological perspective. In B. Guzzetti, Hynd, C. (Ed.), Perspectives on conceptual change (pp. 39-54). Mahwah, NJ: Lawrence Erlbaum Associates // g1,CC,AFF,SOCIAL PSYCHOLOGY,g7,P,AS,LPRO.

Sinatra, G. M. (2002). Motivationalm social, and contextual aspects od conceptual change: A commentary. In M. Limon, Mason, L. (Ed.), Reconsidering conceptual change. Issues in theory and practice. (pp. 187-197). Dordrecht, Netherlands: Kluwer Academic Publishers // g1,CC,AFF.

Sinatra, G. M., Southerland, S. A., McConaughy, F., Demastes, J. W. (2003). Intentions and beliefs in students' understanding and acceptance of biological evolution. Journal of Research in Science Teaching, 40(5), 510-528 // g7, B, EVOLUTION, AFF, CTL.

Sinatra, G. M., & Mason, L. (2008). Beyond knowledge: Learner characteristics influencing conceptual change. In S. Vosniadou (Ed.), International handbook of research on conceptual change (pp. 560-582). New York: Routledge // g1, CC, COSC, AFF, CTL.

Singer, J. E., Tal, R. T., & Wu, H.-K. (2003). Students' understanding of the particulate nature of matter. School Science and Mathematics, 103(1), 28-44 // g7, P, AT.

Singh, C., Belloni, M., & Christian, W. (2006). Improving students' understanding of quantum mechanics. Physics Today, 59(8), 43-49 // g7, P, Q.

Singh, S., Haas, M. (1993). Empowering the learning of chemistry through curriculum development: Implications of misconceptions research for NSTA's project on scope, sequence, and coordination of secondary school science (SS&C). 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.

Siry, C., Horowitz, G., Otulaja, F. S., Gillespie, N., Shady, A., & Augustin, L. A. (2008). Conceptual change research and science education practice: a response from educators. Cultural Studies of Science Education(3), 451-470 // g1, CC.

Sizmur, S. (1994). Concept mapping, language and learning in the classroom. School Science Review, 76(274), 120-125 // g5,g6,B.

Sizmur, S. (1996). Group concept mapping, language and children's learning in primary science. In G. Welford, Osborne, J. , Scott, P. (Ed.), Research in Science Education in Europe (pp. 74-84). London: The Falmer Press // g5,g7,B,DISCOURSE.

Sizmur, S., Osborne, J. (1997). Learning processes and collaborative concept mapping. International Journal of Science Education, 19(10), 1117-1135 // g5,g7,P,S,AS,B,DISCOURSE,.

Sjoberg, S., Lie, S. (1981). Ideas about force and movement among Norwegian pupils and students. Oslo: University of Oslo, Centre for School Science // g6,P,M.

Sjoberg, S. (2000). Cross-cultural evidence and perspectives on pupils' interests, experiences and perceptions. Oslo: Department of teacher education and school development, University of Oslo // g6, CSC.

Skam, K. (1994). Determining misconceptions about astronomy. Australian Science Teachers Journal, 40(3), 63-67 // g6,P,AS.

Skamp, K., Mueller, A. (2001). Student teachers' conceptions about effective primary science teaching: A longitudinal study. International Journal of Science Education, 23(4), 331-352 // g8,CTL.

Skamp, K., Boyes, E., & Stanisstreet, M. (2004). Students' ideas and attitudes about air quality. Research in Science Education, 34(3), 313-342 // g6, STS.

Skelly, K. (1993). The development and validation of a categorization of misconceptions in chemistry. 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,C,CSC.

Skinner, N. C., Preece, P. F. W. (2003). The use of information and communications technology to support the teaching of science in primary schools. International Journal of Science Education, 25(2), 205-219 // g7, MMEDIA.

Skoog, G. (2005). The coverage of human evolution in high school biology textbooks in the 20th century and in current state science standards. Science & Education, 14(3-5), 395-422 // g6, B, EVOLUTION, TXT.

Slack, S. J., Streibel, M. , Collins, A. (1987). A description of student problem solving performance on realistic genetics problems. In J. Novak (Ed.), Proceedings of the 2. Int. Seminar "Misconceptions and Educational Strategies in Science and Mathematics", Vol. II (pp. 452-460). Ithaca: Cornell University // g6,B.

Slater, M. H. (2007). How to justify teaching false science. Science Education, 92(3), 526-542 // g1, CSC, P, M, g3.

Slezak, P. (1994). Sociology of scientific knowledge and scientific education part II: Laboratory life under the microscope. Science & Education, 3, 329-355 // g1.

Slezak, P. (1994). Sociology of scientific knowledge and scientific education: Part I. Science & Education, 3, 265-294 // g1.

Slisko, J. (1993). Language in physics textbooks: Learning obstacle or knowledge organizer? 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.

Slone, M., Bokhurst, F. D. (1992). Children' s understanding of sugar water solutions. International Journal of Science Education, 14(2), 221-235 // g6,P,AT.

Slotta, J. D., Chi, M. T. H. , Joram, E. (1995). Assessing students' misclassifications of physics concepts: An ontological basis for conceptual change. Cognition and Instruction, 13(3), 373-400 // g1,g7,P,T,M,E.

Slotte, V., Lonka, K. (1999). Spontaneous concept maps aiding the understanding of scientific concepts. International Journal of Science Education, 21(6), 515-532 // g5,g6,B.

Smardon, R. (2008). Some sociological ideas for conceptual change research. Cultural Studies of Science Education(3), 363-371 // g1, CC, SCON.

Smedslund, J. (1961). The acquisition of conservation of substance and weight in children. 1. Introduction. Scandinavian Journal of Psychology, 2, 11-20 // g1.

Smedslund, J. (1961). The acquisition of conservation of substance and weight in children. 2. External reinforcement of conservation of weight and of the operations of addition and subtraction. Scandinavian Journal of Psychology, 2, 71-84 // g1.

Smedslund, J. (1961). The acquisition of conservation of substance and weight in children. 3. Extinction of conservation of weight acquired `normally' and by means of empirical controls on a balance. Scandinavian Journal of Psychology, 2, 85-87 // g1.

Smedslund, J. (1961). The acquisition of conservation of substance and weight in children. 4. Attempt at extinction of the visual components of the weight concept. Scandinavian Journal of Psychology, 2, 153-155 // g1.

Smedslund, J. (1961). The acquisition of conservation of substance and weight in children. 5. Practice in conflict situations without external reinforcement. Scandinavian Journal of Psychology, 2, 156-160 // g1.

Smedslund, J. (1961). The acquisition of conservation of substance and weight in children. 6. Practice on continuous vs. discontinuous material in problem situations without external reinforcement. Scandinavian Journal of Psychology, 2, 203-210 // g1.

Smeets, P. M. (1974). The influence of MA and CA on the attribution of life and life traits to animate and inanimate objects. Journal of Genetic Psychology, 124, 17-27 // g6,B.

Smit, J., Finegold, M. (1995). Models in physics: perceptions held by final-year prospective physical science teachers studying at South African universities. International Journal of Science Education, 17(5), 621-634 // g8,CSC.

Smit, J. J. A., Finegold, M. (1995). Models in physics: Perceptions held by final-year prospective physical science teachers studying at South African universities. International Journal of Science Education, 17(5), 621-634 // g8,CSC.

Smit, J. J. A., Lemmer, M. , Wesi, R. P. (2001). The Sediba model for in-service traning of teachers. In R. Pinto, Surinach, S. (Ed.), Physics Teacher Education Beyond 2000 (pp. 221-224). Paris: Elsevier // g6,P,AS,TIME,E,EN.

Smith, C., Carey, S. , Wiser, M. (1985). On differentiation: A case study of the development of the concepts of size, weight and density. Cognition, 21(3), 177-237 // g6,P.

Smith, C., Snir, J. , Grosslight, L. (1987). Teaching for conceptual change using a computer-based modelling approach: The case of weight/density differentiation. Cambridge: Educational Technology Center // g7,P,M.

Smith, C., Snir, J. , Unger, C. M. , Grosslight, L. (1990). Facilitating conceptual differentiation using conceptual models. Paper presented at the annual meeting of the American Educational Research Association, Boston MA // g7,P,M.

Smith, C., Snir, J. , Grosslight, L. (1992). Using conceptual models to facilitate conceptual change: the case of weight-density differentiation. Cognition and Instruction, 9(3), 221-283 // g7,P,M.

Smith, C., Maclin, D. , Grosslight, L. , Davis, H. . (1997). Teaching for understanding: A study of students' preinstruction theories of matter and a comparison of the effectiveness of two approaches to teaching about matter and density. Cognition and Instruction, 15(4), 317-393 // g6,g7,P,M,DENSITY.