Prospective Elementary Teachers’ Analysis of Children’s Science Talk in an Undergraduate Physics Course

References

• Abell, S., & Cennamo, K., (2004). Videocases in elementary science teacher preparation. In J. Brophy (Ed.), Advances in research on teaching volume 10: Using video in teacher education (pp. 103–129). New York: Elsevier.
   Google Scholar
• American Association for the Advancement of Science [AAAS]. (1993). Benchmarks for science literacy. New York: Oxford University Press.
   Google Scholar
• American Association of Physics Teachers [AAPT]. (1995). Powerful ideas in physical science. College Park, MD.
   Google Scholar
• Bakhtin, M. M. (1981). The dialogic imagination: Four essays (C. Emerson & M. Holquist, Trans.). Austin: University of Texas Press.
   Google Scholar
• Ball, D. (1997). What do students know? Facing challenges of distance, context, and desire in trying to hear children. In B. J. Biddle, T. L. Good, & I. F. Goodson (Eds.), International handbook of teachers and teaching (Vol. II, pp. 769–818). Doderich, The Netherlands: Kluwer.
   Google Scholar
• BallDCohenDDarling-HammondLSykesGDeveloping practice, developing practitionersTeaching as the learning profession: Handbook of policy and practice1999San FranciscoJossey-Bass
   Google Scholar
• BleicherRTobinKGMcRobbieCJOpportunities to talk science in a high school chemistry classroomResearch in Science Education20033331933910.1023/A:1025480311414
   Web of Science ®Google Scholar
• BorkoHJacobsJEiteljorgEPittmanMVideo as a tool for fostering productive discussions in mathematics professional developmentTeaching and teacher education20082441743610.1016/j.tate.2006.11.012
   Web of Science ®Google Scholar
• BrooksDHortonGHeuvelenAEtkinaEConcerning scientific discourse about heat2004Sacramento, CAPaper presented at the Physics Education Research Conference
   Google Scholar
• BrophyJUsing video in teacher education (Vol. 10)2004AmsterdamElsevier JAI
   Google Scholar
• BrownJSCollinsADuguidPSituated cognition and the culture of learningEducational Researcher1989181324210.3102/0013189X018001032
   Google Scholar
• BrownBRyooKTeaching science as a language: A ‘‘Content-First’’ approach to science teachingJournal of Research in Science Teaching200745552955310.1002/tea.20255
   Web of Science ®Google Scholar
• CarlsenWTeacher knowledge and discourse control: quantitative evidence from novice biology teachers’ classroomsJournal of Research in Science Teaching199330547148110.1002/tea.3660300506
   Web of Science ®Google Scholar
• CarrWKemmisSBecoming critical: Education, knowledge, and action research1986New YorkRoutledge
   Google Scholar
• CreswellJEducational research: Planning, conducting and evaluating quantitative and qualitative research2005Upper Saddle River, NJPearson
   Google Scholar
• Derry, S. J., Schunn, C., & Gernsbacher, M. A. (Eds.). (2005). Interdisciplinary collaboration: An emerging cognitive science. Mahwah, NJ: Lawrence Erlbaum Associates
   Google Scholar
• DriverRAsokoHLeachJMortimerDScottPConstructing scientific knowledge in the classroomEducational Researcher199423751210.3102/0013189X023007005
   Google Scholar
• FangZScientific literacy: A systemic functional linguistic perspectiveScience Education200489233534710.1002/sce.20050
   Web of Science ®Google Scholar
• FosnotCDolkMYoung mathematicians at work: Constructing fractions, decimals, and percents2002PortsmouthHeinemann
   Google Scholar
• Fulp, S. (2002). 2000 National survey of science and mathematics education: Status of elementary school science teaching: Horizon Research Inc.
   Google Scholar
• GallasKTalking their way into science1995New YorkTeachers College Press
   Google Scholar
• GeeJPSocial linguistics and literacies: Ideology in discourses19902LondonTaylor and Francis
   Google Scholar
• Gess-NewsomeJLedermanNExamining pedagogical content knowledge: The construction and its implications1999DordrechtKlewer Academic Publishers
   Google Scholar
• GoldbergFRobinsonSOteroVPhysics and everyday thinking (PET)2007ArmokIt’s About Time
   Google Scholar
• GopnikAMeltzoffAKuhlPThe scientist in the crib: What early learning tells us about the mind1999Mew YorkHarper Collins
   Google Scholar
• GreenoJGCollinsAMResnickLBBerlinerDCCalfeeRCCognition and learningHandbook of Educational Psychology1996New YorkMacmillan1546
   Google Scholar
• GrossmanPComptonCIgraDRonfeldtMShahanEWilliamsonPTeaching practice: A cross-professional perspectiveTeachers College Record2009111920552100
   Web of Science ®Google Scholar
• GumperzJCook-GumperzJInteractional sociolinguiostics in the study of schoolingThe social construction of literacy1986Cambridge, EnglandCambridge University Press4568
   Google Scholar
• Gussin-PaleyVOn listening to what the children sayHarvard Educational Review1986562122131
   Web of Science ®Google Scholar
• HammerDPractices of inquiry in teaching and researchCognition and Instruction200119444147810.1207/S1532690XCI1904_2
   Web of Science ®Google Scholar
• HammerDZeeVanSeeing the science in children’s thinking2006PortsmouthHeinemann
   Google Scholar
• HarlowDStructures and improvisation for inquiry-based science instruction: A teacher’s adaptation of a model of magnetism activityScience Education2010941142163
   Web of Science ®Google Scholar
• HashwehMZEffects of subject matter knowledge in the teaching of biology and physicsTeaching and teacher education1987310912010.1016/0742-051X(87)90012-6
   Web of Science ®Google Scholar
• HillHRowanBBallDLEffects of teachers’ mathematical knowledge for teaching on student achievementAmerican Education Research Journal200542237140610.3102/00028312042002371
   Web of Science ®Google Scholar
• HoughSJacobWMoonKGuzmanMLagerCet al.CrawfordCet al.Measuring the differences in prospective elementary teachers’ and secondary teachers’ early pedagogical content knowledge using video casesProceedings of society for information technology & teacher education international conference 20102010Chesapeake, VAAACE34563467
   Google Scholar
• Hrepic, Z., Adams, P., Zeller, J., Talbott, N., Taggart, G., Young, L., et al. (2005). Developing an inquiry-based physical science course for preservice elementary teachers. In L. McCollough & J. Marx (Eds.), Proceedings of the 2005 PERC (pp. 818–821). Melville, NY: AIP Press.
   Google Scholar
• Itza-Ortiz, S., Rebello, N. S., & Zollman, D. A. (2003). The vocabulary of introductory physics and its implications for learning physics. The Physics Teacher, 41. doi:10.1119/1.1607802.
   Google Scholar
• Jackson, D. P & Laws, P. W. (1997). Workshop physical science: Project-based science education for future teachers, parents, and citizens. In E. F. Redish & J. S. Rigden (Eds.), The changing role of physics departments in Modern Universities: Proceedings of the international conference on undergraduate physics education (pp. 623–630). College Park, MD: University of Maryland, AIP Press.
   Google Scholar
• JennessMMillerPPET external evaluation: An analysis of pre/post content test scores2005Western MichiganMallinson Institute for Science Education
   Google Scholar
• LaveJCognition in practice: mind, mathematics and culture in everyday life1988New YorkCambridge University Press
   Google Scholar
• LaveJWengerESituated learning: Legitimate peripheral participation1991CambridgeCambridge University Press
   Google Scholar
• LemkeJLTalking science: Language, learning, and values1990Norwood, NJAblex Publishing Corporation
   Google Scholar
• LinPUsing research-based video-cases to help pre-service primary teachers conceptualize a contemporary view of mathematics teachingInternational Journal of Science and Mathematics Education2005335137710.1007/s10763-004-8369-5
   Google Scholar
• Lindsey, B.A., Hsu, L., Sadaghiani, H., Taylor, J. W., & Cummings, K. (2012). Positive attitudinal shifts with the physics by inquiry curriculum across multiple implementations, Physical Review Special Topics-Physics Education Research, 8, 010102.
   Google Scholar
• MayDBHammerDRoyPChildren’s analogical reasoning in a third-grade science discussionScience Education200690231633010.1002/sce.20116
   Web of Science ®Google Scholar
• McDermottLCA perspective on teacher preparation in physics and other sciences: The need for special courses for teachers,”American Journal of Physics199058873474210.1119/1.16395
   Web of Science ®Google Scholar
• McDermottLCPhysics by inquiry (Vols. I and III)1996New YorkWiley
   Google Scholar
• MilesAHubermanAQualitative data analysis: An expanded sourcebook1994Thousand Oaks, CASage
   Google Scholar
• MillsGAction research: A guide for the teacher researcher2000Upper Saddle River, NJPrentice Hall
   Google Scholar
• MojeEBCollazoTCarrilloRMarxRW“Maestro, what is ‘quality’?”: Language, literacy, and discourse in project-based scienceJournal of Research in Science Teaching200138446947810.1002/tea.1014
   Web of Science ®Google Scholar
• MunbyHRussellTMartinAKRichardsonVTeachers’ knowledge and how it developsHandbook of research on teaching20014Washington, DCAERA877904
   Google Scholar
• National science education standards1996Washington, DCNational Academy Press
   Google Scholar
• Educating teachers of science, mathematics and technology: New practices for a new millennium2000Washington, DCNational Academy Press
   Google Scholar
• O’ConnorMCMichaelsSHicksDShifting participant frameworks: Orchestrating thinking practices in group discussionChild discourse and social learning1996CambridgeCambridge University Press63102
   Google Scholar
• OteroVGrayKAttitudinal gains across multiple universities using the physics and everyday thinking curriculumPhysical Review Special Topics—Physics Education Research2008402010410.1103/PhysRevSTPER.4.020104
   Google Scholar
• PetrosinoAKoehlerMGoldmanRPeaRBarronBDerrySTeachers as designers: Pre and in-service teachers’ authoring of anchor video as a means to professional developmentVideo research in the learning sciences2007Mahwah, NJLawrence Erlbaum Associates, Publishers411423
   Google Scholar
• PutnamRTBorkoHWhat do new views of knowledge and thinking have to say about research on teacher learning?Educational Researcher200029141510.3102/0013189X029001004
   Google Scholar
• RosaenCLundebergMCooperMFritzenATerpstraMNoticing noticing: How does investigation of video records change how teachers reflect on their experiences?Journal of Teacher Education200859434736010.1177/0022487108322128
   Web of Science ®Google Scholar
• Roth, K. (2010). Videocses for science teaching analysis (ViSTA): An experience with online, videocase-based modules designed for use in pre-service science methods courses, Association of Science Teacher Educators, www.bscs.org/ASTE2010.
   Google Scholar
• Sanders, T. (2004). No time to waste: The vital role of college and university leaders in improving science and mathematics education. Paper presented at the Teacher preparation and institutions of higher education: Mathematics and science content knowledge, United Stated Department of Education.
   Google Scholar
• SantagataRDesigning video-based professional development for mathematics teachers in low-performing schoolsJournal of Teacher Education2009601385110.1177/0022487108328485
   Web of Science ®Google Scholar
• SantagataRZannoniCStiglerJThe role of lesson analysis in pre-service teacher education: And empirical investigation of teacher learning from a virtual video0based field experienceJournal of Mathematics Teacher Education20071012314010.1007/s10857-007-9029-9
   Google Scholar
• SfardAThere is more to discourse than meets the ears: Looking at thinking as communicating to learn more about mathematical learningEducational Studies in Mathematics200146135710.1023/A:1014097416157
   Google Scholar
• SherinMHanSTeacher learning in the context of a video clubTeaching and Teacher Education200420216318310.1016/j.tate.2003.08.001
   Web of Science ®Google Scholar
• SherinMEsEUsing video to support teachers’ ability to notice classroom interactionsJournal of Technology and Teacher Education2005133475491
   Google Scholar
• Shulman, L. S. (1986). Paradigms and research in the study of teaching: A contemporary perspective. In M. C. Wittrock (Ed.), Handbook of research on teaching (3rd Edn., pp. 3–36). New York: Macmillan.
   Google Scholar
• ShulmanLSKnowledge and teaching: Foundations of the new reformHarvard Educational Review1987571122
   Web of Science ®Google Scholar
• StarJStricklandSKLearning to observe: Using video to improve preservice mathematics teachers’ ability to noticeJournal of Mathematics Teacher Education200811210712510.1007/s10857-007-9063-7
   Google Scholar
• StockeroSUsing a video-based curriculum to develop a reflective stance in prospective mathematics teachersJournal of Mathematics Teacher Education200811537339410.1007/s10857-008-9079-7
   Google Scholar
• DrielJVerloopNVosWDeveloping science teachers’ pedagogical content knowledgeJournal of Research in Science Teaching1998356637695
   Web of Science ®Google Scholar
• WellingtonJOsborneJLanguage and literacy in science education2001BuckinghamOpen University Press
   Google Scholar
• Wilson, S., Floden, R., & Ferrini-Mundy, J. (2001). Teacher preparation research: Current knowledge, gaps and recommendations (No. R-01-3): Center for the Study of Teaching and Policy, University of Washington.
   Google Scholar
• YadavAWhat works for them? Pre-service teachers perceptions of their learning from video casesAction in Teacher Education2008294273810.1080/01626620.2008.10463467
   Google Scholar
• Yerrick, R. (2002). Using digital video to expand prospective science teachers’ views of science. The Online Journal of Teaching and Learning in the CSU.
   Google Scholar
• YerrickRRossDMolebashPToo close for comfort: Real-time science teaching reflections via digital video editingJournal of Science Teacher Education20051635137510.1007/s10972-005-1105-3
   Google Scholar
• ZeidlerDDancing with maggots and saints: Visions for subject matter knowledge, pedagogical knowledge, and pedagogical content knowledge in science teacher education reformJournal of Science Teacher Education2002131274210.1023/A:1015129825891
   Google Scholar