Alternative Conceptions Concerning the Earth's Interior Exhibited by Honduran Students

REFERENCES

• Abimbola, I. 1988. The problem of terminology in the study of student conceptions in science. Science Education , 72 (2):175–184.
   Web of Science ®Google Scholar
• Arcia, G., and Gargiulo C. 2010. Análisis de la fuerza laboral en educación en Honduras. New York. Banco Interamericano de Desarrollo. Available at: http://idbdocs.iadb.org/wsdocs/getdocument.aspx?docnum=35329103 (accessed 1 March 2012).
   Google Scholar
• Ault, C.R., Jr. 1984. The everyday perspective and exceedingly unobvious meaning. Journal of Geological Education , 32 (2):89–91.
   Google Scholar
• Bach, J., and Franch, J. 2004. La enseñanza del sistema sol-tierra desde la perspectiva de las ideas previas. Enseñanza de las Ciencias de la Tierra , 12 (3):302–312.
   Google Scholar
• Banco Central de Honduras . 2002. Honduras en Cifras: 2000–2002. Tegucigalpa, M.D.C. Honduras. C.A. Available at: http://www.bch.hn (accessed 1 March 2012).
   Google Scholar
• Banco Central de Honduras . 2003. Memoria annual. Tegucigalpa, M.D.C. Honduras. C.A. Available at: http://www.bch.hn (accessed 1 March 2012).
   Google Scholar
• Beilfuss, M. 2004. A study of undergraduate students' alternative conceptions of the Earth's interior using drawing tasks [Ph.D thesis]. Bloomington. Indiana University.
   Google Scholar
• Bishop, B.A., and Anderson, C.W. 1990. Student conceptions of natural selection and its role in evolution. Journal of Research in Science Teaching , 27 (5):415–427.
   Web of Science ®Google Scholar
• Blake, A. 2005. Do young children's ideas about the Earth's structure and processes reveal underlying patterns of descriptive and causal understanding in earth science?. Research in Science & Technological Education , 23 (1):59–74.
   Google Scholar
• Bransford, J.D., Brown, A.L., and Cocking, R.R. 1999. How people learn: Brain, mind, experience, and school. Washington, DC. National Research Council.
   Google Scholar
• Brown, D.E. 1989. Students' concepts of forces: the importance of understanding Newton's third law. Physics Education , 24 (6):353–357.
   Google Scholar
• Brown, D.E. 1992. Using examples and analogies to remediate misconceptions in physics: Factors influencing conceptual change. Journal of Research in Science Teaching , 29 (1):17–34.
   Web of Science ®Google Scholar
• Carnoy, M. 2002. Mayor acceso, equidad y calidad en la educación de América Latina: ¿Qué lecciones deja para el Proyecto Regional de Educación para América Latina y el Caribe?.Santiago, Chile. PRELAC by UNESCO Regional Bureau of Education for Latin America and the Caribbean. Available at: http://www.oei.es/reformaseducativas/mayor_acceso_equidad_calidad_AL_lecciones_prelac_carnoy.pdf (accessed 1 March 2012).
   Google Scholar
• Clement, J., Brown, D., and Zietsman, A. 1987. Overcoming students' misconceptions in physics: the role of anchoring intuitions and analogical validity. In Novak J.D., ed. Proceedings of the Second International Seminar Misconceptions and Educational Strategies in Science and Mathematics, vol. III. Ithaca, NY. Cornell University. p. 84–97.
   Google Scholar
• Dahl, J., Anderson, S.W., and Libarkin, J.C. 2005. Digging into Earth science: alternative conceptions held by K–12 teachers. Journal of Science Education , 12:65–68.
   Google Scholar
• Dal, B. 2007. How do we help students build beliefs that allow them to avoid critical learning barriers and develop a deep understanding of geology. Eurasia Journal of Mathematics, Science & Technology Education , 3 (4):251–269.
   Google Scholar
• DeLaughter, J.E., Stein, S., Stein, C.A., and Bain, K.R. 1998. Preconceptions about earth science among students in an introductory course. Eos , 79 (36):429–431.
   Google Scholar
• Dodick, J., and Orion, N. 2003. Measuring student understanding of geological time. Science Education , 87 (5):708–731.
   Web of Science ®Google Scholar
• Dove, J.E. 1998. Students' alternative conceptions in earth science. Research Papers in Education , 13 (2):183–201.
   Google Scholar
• Driver, R., and Easley, J. 1978. Pupils and paradigms: A review of literature related to conceptual development in adolescent science students. Studies in Science Education , 5 (1):61–84.
   Google Scholar
• Engel, E., and Driver, R. 1981. Investigating pupils' understanding of aspects of pressure. In. Jung, W., Pfundt, H., and von Rhoeneck, C., eds., Proceedings of the International Workshop on “Problems Concerning Students' Representation of Physics and Chemistry Knowledge.”.Ludwigsburg, Germany. Paedagogische Hochschule. p. 214–233. (Available from the authors, Centre for Studies in Science Education, University of Leeds.)
   Google Scholar
• Figueiredo, M.T., and Marques, L. 2005. Concepciones de alumnos de enseñanza secundaria sobre metamorfismo. Enseñanza de las Ciencias de la Tierra , 13 (2):156–164.
   Google Scholar
• Gabel, D.L. 1989. Let us go back to nature study. Journal of Chemical Education , 66 (9):727–729.
   Web of Science ®Google Scholar
• Gobert, J.D. 2005. The effects of different learning tasks on model building in place tectonics: Diagramming versus explaining. Journal of Geoscience Education , 53 (4):444–455.
   Google Scholar
• Gobert, J.D., and Clement, J.J. 1999. Effects of student-generated diagrams versus student-generated summaries on conceptual understanding of causal and dynamic knowledge in plate tectonics. Journal of Research in Science Teaching , 36 (1):39–53.
   Web of Science ®Google Scholar
• Hawkins, J., and Pea, R. 1987. Tools for bridging the cultures of everyday and scientific thinking. Journal of Research in Science Teaching , 24 (4):291–307.
   Web of Science ®Google Scholar
• Hayes, D., Symington D., and Martin, M. 1994. Drawing during science activity in the primary school. International Journal of Science Education , 16 (3):265–277.
   Web of Science ®Google Scholar
• Hewson, P.W. 1981. A conceptual change approach to learning science. International Journal of Science Education , 3 (4):383–396.
   Google Scholar
• Hewson, P.W. 1985. Diagnosis and remediation of an alternative conception of velocity using microcomputer program. American Journal of Physics , 53 (7):684–690.
   Web of Science ®Google Scholar
• Instituto Hondureño de Ciencias de la Tierra . 2012. Available at: http://ihcit.edu.hn/index.php. (accessed 21 August 2012) and http://www.climatechange-regatta.org/index.php/en/key-institutions/item/instituto-hondureno-de-ciencias-de-la-tierra-universidad-nacional-autonoma-de-honduras-ihcitand (accessed 20 March 2013).
   Google Scholar
• Instituto Nacional de Estadísticas de Honduras (INE) . 2010. Linea de pobreza: Metodo de la linea de pobreza. Tegucigalpa, Honduras. INE. Available at: http://www.ine.gob.hn/drupal/node/123 (accessed 18 February 2010).
   Google Scholar
• King, C. 2000. The Earth's mantle is solid: Teachers' misconceptions about the Earth and plate tectonics. School Science Review , 82 (298):57–64.
   Google Scholar
• Lewis, E.B., and Baker, D.R. 2010. A call for a new geoscience education research agenda. Journal of Research in Science Teaching , 47 (2):121–129.
   Web of Science ®Google Scholar
• Libarkin, J., Anderson, S., Boone, W., Beilfuss, M., and Dahl, J. 2002. The Geoscience Concept Test: A new assessment tool based on student misconceptions [Poster]. Eos Transactions of the American Geophysical Union , 83:47., Fall Meeting Supplement, Abstract ED11B-0047.
   Google Scholar
• Libarkin, J.C., Anderson, S.W., Dahl, J., Beilfuss, M., and Boone, W. 2005. Qualitative analysis of college students' ideas about the Earth: Interviews and open-ended questionnaires. Journal of Geoscience Education , 53 (1):17–26.
   Google Scholar
• Lillo, J. 1994. An analysis of the annotated drawings of the internal structure of the Earth made by students aged 10–15 from primary and secondary schools in Spain. Teaching Earth Sciences , 19 (3):83–89.
   Google Scholar
• Marques, L., and Thompson D. 1997 a. Portuguese students' understanding at ages 10–11 and 14–15 of the origin and nature of the Earth and the development of life. Research in Science and Technological Education , 15 (1):29–51.
   Google Scholar
• Marques, L., and Thompson D. 1997 b. Misconceptions and conceptual changes concerning continental drift and plate tectonics among Portuguese students aged 16–17. Research in Science and Technological Education , 15 (2):195–222.
   Google Scholar
• Márquez, C., and Bach, J. 2007. Una propuesta de análisis de las representaciones de los alumnos sobre el ciclo del agua [A study for analysing the students' representations on the water cycle]. Enseñanza de las Ciencias de la Tierra , 15 (3):280–286
   Google Scholar
• Nottis, K., and Ketter, K. 1999. Using analogies to teach plate tectonics concepts. Journal of Geoscience Education , 47 (5):449–454.
   Google Scholar
• Onida, M., and Segalini, L. 2006. Investigación didáctica en la escuela primaria: Una experiencia sobre los fenómenos volcanicos. Enseñanza de las Ciencias de la Tierra , 14 (3):247–258.
   Google Scholar
• Perkins, D., and Unger, C. 1999. Teaching and learning for understanding. In Reigeluth, C.M., ed., Instructional-design theories and models: A new paradigm of instructional theory, vol 2. Mahwah, NJ. Lawrence Erbaum Associates. p. 91–114.
   Google Scholar
• Pfundt, H., and Duit, R. 2000. Bibliography: Students' alternative frameworks and science education, 5th ed. Kiel, Germany. Institute for Science Education, University of Kiel.
   Google Scholar
• Ramos, R., Praia, J., Marqués, J, and Pereira, L.G. 2001. Ideas alternativas sobre el ciclo litológico en alumnos Portugueses de enseñanza secundaria. Enseñanza de las Ciencias de la Tierra , 9 (3):252–260.
   Google Scholar
• Roldão, I., Marques, L., and Ferreira, A. 2001. Concepciones de alumnos de enseñanza secundaria sobre especiación y extinción. Enseñanza de las Ciencias de la Tierra , 9 (2):173–182.
   Google Scholar
• Schoon, K.J. 1992. Students' alternative conceptions of Earth and space. Journal of Geological Education , 40 (3):209–214.
   Google Scholar
• Secetaría de Educación de la República de Honduras . 2003. Currículo Nacional Básico. Tegucigalpa, Honduras. Direccion General de Curriculo. p. 69.
   Google Scholar
• Sharp, J.G., Mackintoch, M.A., and Seedhouse, P. 1995. Some comments on children's ideas about Earth structure, volcanoes, earthquakes, and plates. Teaching Earth Sciences , 20 (1):28–30.
   Google Scholar
• Solomon, J. 1987. Social Influences on the construction of pupils' understanding of science. Studies in Science Education , 14 (1):63–82.
   Google Scholar
• Strike, K.A., and Posner, G.J. 1992. A revisionist theory of conceptual change. In Duschl, R.A., and Hamilton, R.J., eds., Philosophy of science, cognitive psychology, and educational theory and practice. New York. State University of New York Press. p. 147–175.
   Google Scholar
• Treagust, D.F. 1988. Development and use of diagnostic tests to evaluate students' misconceptions in science. International Journal of Science Education , 10 (2):159–169.
   Web of Science ®Google Scholar
• Trend, R. 1998. An investigation into understanding of geological time among 10- and 11-year-old children. International Journal of Science Education , 20 (8):973–988.
   Web of Science ®Google Scholar
• Universidad Nacional Autónoma de Honduras . 2012. UNAH home page. Available at https://www.unah.edu.hn/ (accessed 21 August 2012).
   Google Scholar
• Wandersee, J.H., Mintzes, J.J., and Novak, J.D. 1994. Research on alternative conceptions in science. In Gabel, D.L. ed., Handbook of research on science teaching and learning. New York. Macmillan. p. 177–210.
   Google Scholar
• White, R.T., and Gunstone, R.F. 1992. Probing understanding. London, UK. Falmer Press. p. 208.
   Google Scholar