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Incorporating Authentic Scientific Research and The Nature of Science Into the High School Classroom.

Published online by Cambridge University Press:  25 July 2011

A. Strunk ,
K. Gamez Warble ,
R. J. Nemanich  and
R. J. Culbertson
A. Strunk
Affiliation:
Paradise Valley High School, Phoenix, AZ, United States.
K. Gamez Warble
Affiliation:
Arizona School for the Arts, Phoenix, AZ, United States.
R. J. Nemanich
Affiliation:
Department of Physics, Arizona State University, Tempe, AZ, United States.
R. J. Culbertson
Affiliation:
Department of Physics, Arizona State University, Tempe, AZ, United States.
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Abstract

The true nature of scientific research, often neglected in science education and pre-service teacher training, is critical to student conceptual understanding of how science works. Many education students leave school with the naive view that science is a collection of facts rather than a dynamic process of inquiring into nature. The ASU Math and Science Teaching Fellows (MSTF) program gives in-service math and science teachers an opportunity to experience scientific research by immersion in active research groups in state-of-the-art laboratories. With a better understanding of what science looks like in actual research laboratories, these teachers implement direct instruction in the Nature of Science in their classrooms. Research that was conducted by teachers in a nanoscience laboratory and how they plan to implement their experiences into their high school classes will be presented.

Keywords

nanoscalenanostructurethin film
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1364: Symposium SS – Forum on Materials Education and Evaluation—K-12, Undergraduate, Graduate and Informal , 2011 , mrss11-1364-ss01-06
Copyright
Copyright © Materials Research Society 2011

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References

REFERENCES

1 Dewey, John, Science in the Course of Study, in Democracy and Education, edited by Anonymous (Macmillan Company, 1916), Chap. 17.Google Scholar
2 Conant, A. B., On Understanding Science: An Historical Approach, edited by Anonymous (New American Library, New York, 1951), pp. 144.Google Scholar
3 Martin, M. R., Concepts of Science Education: A Phiosophical Analysis, edited by Anonymous (Scott, Foresman and Company, Glenview, Ill, 1972), pp. 177.Google Scholar
4 Fleury, S.C. & Bentley, M.L., “Educating Elementary Science Teachers: Alternative Conceptions of the Nature of Science,” Teaching Education 3 (2), 57-67 (1991).Google Scholar
5 National Research Council, Science Content Standards, in The National Science Education Standards, edited by Anonymous (National Academy Press, Washington, D.C, 1996), Chap. 6, pp. 103107.Google Scholar
6 McComas, William F., Almazroa, Hiya and Clough, Michael, “The Nature of Science in Science Education: An Introduction," Sci. & Ed. 7 (6), 511 (1998).Google Scholar
7 Johnson, R. L. and Peeples, E. E., “The role of scientific understanding in college: Student acceptance of evolution,” The American Biology Teacher 49 (2), 93 (1987).Google Scholar
8 Kim, Sun, “A Cross-Cultural Comparison of Korean and American Science Teachers’ Views of Evolution and the Nature of Science,” Intern. J. Sci. Ed. 33(2), 197 (2011).Google Scholar
9 Rutledge, Michael and Mitchell, Melissa, “High School Biology Teachers’ Knowledge Structure, Acceptance and Teaching of Evolution,” The American Biology Teacher 64 (1), 21 (2002).Google Scholar
10 Shamos, Morris, The Myth of Scientific Literacy, edited by Anonymous (Rutgers University Press, New Brunswick, New Jersey, 1995), pp. 288.Google Scholar
11 McComas, William F., “The Principal Elements of The Nature of Science: Dispelling The Myths,” in The Nature of Science in Science Education, edited by Anonymous (Kluwer Academic Publishers, Netherlands, 1998), Chap. 3, pp. 53.Google Scholar
12 Miller, P. E., “A Comparison of the Abilities of Secondary Teachers and Students of Biology to Understand Science,” Iowa Acad. of Sci. 70, 510 (1963).Google Scholar
13 Ryan, A. G. and Aikenhead, G. S., “Students’ Preconceptions about the Epistemology of Science,” I 76, 559 (1992).Google Scholar
14 Binns, Ian, “Representation of Scientific Methodology in Secondary Science Textbooks,” ProQuest LLC; Ph.D. Dissertation, University of Virginia (2009).Google Scholar
15 Backhus, DeWayne, “Addressing the Nature of Science in Pre-service Science Teacher Preparation Programs: Science Educator Perceptions,” J. Sci. Teach. Ed. 17 (1), 65 (2006).Google Scholar
16 Raphael, J., Tobias, S. and Greenberg, R., “Research experience as a component of science and mathematics teacher preparation,” J. Sci. Teach. Ed. 12, 147 (1999).Google Scholar