Research‐based teaching unit on the tides

References

• Arons , AB . (1979) . Basic physics of the semidiurnal lunar tide . American Journal of Physics , 47 : 934 – 937 .
   Google Scholar
• Atwood , RK and Atwood , VA . (1995) . Preservice elementary teachers' conceptions of what causes night and day . School Science & Mathematics , 95 : 290 – 295 .
   Google Scholar
• Atwood , RK and Atwood , VA . (1996) . Preservice elementary teachers' conceptions of the causes of seasons . Journal of Research in Science Teaching , 33 : 553 – 563 .
   Web of Science ®Google Scholar
• Baxter J (1995) Children's understanding of astronomy and the earth sciences In S. M. Glynn, and R. Duit (Eds.) Learning science in the schools: research reforming practice (NJ: Lawrence Erlbaum Associates) 155 177
   Google Scholar
• Clancy PE (1969) The tides (New York: Anchor Books Doubleday & Company)
   Google Scholar
• Darwin GH (1962) The tides and kindred phenomena in the solar system (San Francisco, CA: W. H. Freeman)
   Google Scholar
• Duit , R , Komorek , M and Wilbers , J . (1997) . Studies on educational reconstruction of chaos theory . Research in Science Education , 27 : 339 – 357 .
   Google Scholar
• Galili I Lehavi Y (2001) The importance of synergetic use of weightlessness and tides in physics instruction In D. Psillos et al. (Eds.) Science education research in the knowledge based society (Thessaloniki: Aristotle University) 389 391
   Google Scholar
• Härtel , H . (1999) . The tides – a neglected topic . Physics Education , 35 : 40 – 45 .
   Google Scholar
• Keizer A (1993) Getijden Onderwezen (Amsterdam: Vakgroep Sociaal Wetenschappelijke Informatica)
   Google Scholar
• Leach J Scott P (2000) The concept of learning demand as a tool for designing teaching sequences Paper presented at the meeting on Research‐Based Teaching Sequences, Paris, November
   Google Scholar
• Limón , M . (2001) . On the cognitive conflict as an instructional strategy for conceptual change: a critical appraisal . Learning and Instruction , 11 : 357 – 380 .
   Web of Science ®Google Scholar
• Linjse , P . (1995) . ‘Developmental research’ as a way to an empirically based ‘didactical structure’ of science . Science Education , 79 : 189 – 199 .
   Web of Science ®Google Scholar
• Mach E (1974) The science of mechanics (LaSalle: The Open Court Publishing Co)
   Google Scholar
• Mercer N (1995) The guided construction of knowledge (Clevedon: Multilingual Matters)
   Google Scholar
• Millar R (2001) What can we reasonably expect of research in science education? In D. Psillos et al. (Eds.) Science education research in the knowledge based society (Thessaloniki: Aristotle University)
   Google Scholar
• Mortimer , EF and Machado , AH . (2000) . Anomalies and conflicts in classroom discourse . Science Education , 84 : 429 – 444 .
   Web of Science ®Google Scholar
• National Board of Education (1994) Framework curriculum for the comprehensive school (Helsinki: Painatuskeskus)
   Google Scholar
• National Board of Education (1999) The criteria paper for the assessment of secondary education (Helsinki: Yliopistopaino)
   Google Scholar
• Needham R Hill P (1987) Teaching strategies for developing understanding in science (Children's Learning in Science Project, The University of Leeds)
   Google Scholar
• Newton I (1962) Mathematical principles of natural philosophy and his system of the world (Berkeley, CA: University of California Press)
   Google Scholar
• Ogborn J Kress G Martins I Mcgillicuddy K (1996) Explaining science in the classroom (Buckingham: Open University Press)
   Google Scholar
• Psillos D (2001) Teaching–learning sequences as a means for linking research to development In D. Psillos et al. (Eds.) Science education research in the knowledge based society (Thessaloniki: Aristotle University)
   Google Scholar
• Psillos , D and Kariotoglou , P . (1999) . Teaching fluids: intended knowledge and students' actual conceptual evolution . International Journal of Science Education , 21 : 17 – 38 .
   Web of Science ®Google Scholar
• Sandberg , J and Barnard , Y . (1997) . Deep learning is difficult . Instructional Science , 25 : 15 – 36 .
   Web of Science ®Google Scholar
• Scott P (1987) A constructivist view of learning and teaching in science (CLIS Project, University of Leeds)
   Google Scholar
• van Saane N van Genuchten J (1992) De getijden‐tutor (Amsterdam: Vakgroep Sociaal Wetenschappelijke Informatica)
   Google Scholar
• Viennot , L and Rainson , S . (1999) . Design and evaluation of a research‐based teaching sequence: the superposition of electric field . International Journal of Science Education , 21 : 1 – 16 .
   Web of Science ®Google Scholar
• Viiri J (1995) Teaching the force concept: a constructivist teaching experiment in engineering education In Proceedings of The Third International History, Philosophy, and Science Teaching Conference Minneapolis, Mn, 29 October‐1 November (pp. 1259–1270)
   Google Scholar
• Viiri J (1999) Tides in Textbooks, expert teachers' ideas and students' understanding In M. Komorek, H. Behrendt, H. Dahncke, R. Duit, W. Gräber, and A. Kross (Eds.) Proceedings of the Second International Conference of the European Science Education Research Association (ESERA) Kiel, August
   Google Scholar
• Viiri , J . (2000a) . Students' understanding of tides . Physics Education , 35 : 105 – 109 .
   Google Scholar
• Viiri J (2000b) Educational reconstruction of tides University of Joensuu Publications in Education 59 (in Finnish)
   Google Scholar
• Warren JW (1979) Understanding force (London: John Murray), 54
   Google Scholar