Science as Inquiry
Copyright © 2008 NSTA. All rights reserved. For more information, go to www.nsta.org/permissions.
Edited by Julie Luft, Randy L. Bell, and Julie Gess-Newsome
Arlington, Virginia
Copyright © 2008 NSTA. All rights reserved. For more information, go to www.nsta.org/permissions.
Claire Reinburg, Director
Judy Cusick, Senior Editor
Andrew Cocke, Associate Editor
Betty Smith, Associate Editor
Robin Allan, Book Acquisitions Manager
Art and Design
Will Thomas, Jr., Director
Tim French, Senior Graphic Designer (cover and interior design)
Printing and Production
Catherine Lorrain, Director
National Science Teachers Association
Gerald F. Wheeler, Executive Director
David Beacom, Publisher
Copyright © 2008 by the National Science Teachers Association.
All rights reserved. Printed in the United States of America.
11 10 09 08
4321
Library of Congress Cataloging-in-Publication Data
Science as inquiry in the secondary setting / edited by Julie Luft, Randy L. Bell, and Julie Gess-Newsome.
p. cm.
Includes bibliographical references and index.
ISBN 978-1-933531-26-7
1. Science--Study and teaching (Secondary)--United States. 2. Inquiry-based learning. I. Luft, Julie. II. Bell,
Randy L. III. Gess-Newsome, Julie.
Q183.3.A1S3526 2007
507.1’2--dc22
2007042206
NSTA is committed to publishing material that promotes the best in inquiry-based science education. However, conditions of actual use may vary, and the safety procedures and practices described in this book are intended to serve only as a guide. Additional precautionary measures may be required. NSTA and the authors do not warrant or represent that the procedures and practices in this book meet any safety code or standard of federal, state, or local regulations. NSTA and the authors disclaim any liability for personal injury or damage to property arising out of or relating to the use of this book, including any of the recommendations, instructions, or materials contained therein.
Edited by Julie Luft, Randy L. Bell, and Julie Gess-Newsome
Arlington, Virginia
Copyright © 2008 NSTA. All rights reserved. For more information, go to www.nsta.org/permissions.
Claire Reinburg, Director
Judy Cusick, Senior Editor
Andrew Cocke, Associate Editor
Betty Smith, Associate Editor
Robin Allan, Book Acquisitions Manager
Art and Design
Will Thomas, Jr., Director
Tim French, Senior Graphic Designer (cover and interior design)
Printing and Production
Catherine Lorrain, Director
National Science Teachers Association
Gerald F. Wheeler, Executive Director
David Beacom, Publisher
Copyright © 2008 by the National Science Teachers Association.
All rights reserved. Printed in the United States of America.
11 10 09 08
4321
Library of Congress Cataloging-in-Publication Data
Science as inquiry in the secondary setting / edited by Julie Luft, Randy L. Bell, and Julie Gess-Newsome.
p. cm.
Includes bibliographical references and index.
ISBN 978-1-933531-26-7
1. Science--Study and teaching (Secondary)--United States. 2. Inquiry-based learning. I. Luft, Julie. II. Bell,
Randy L. III. Gess-Newsome, Julie.
Q183.3.A1S3526 2007
507.1’2--dc22
2007042206
NSTA is committed to publishing material that promotes the best in inquiry-based science education. However, conditions of actual use may vary, and the safety procedures and practices described in this book are intended to serve only as a guide. Additional precautionary measures may be required. NSTA and the authors do not warrant or represent that the procedures and practices in this book meet any safety code or standard of federal, state, or local regulations. NSTA and the authors disclaim any liability for personal injury or damage to property arising out of or relating to the use of this book, including any of the recommendations, instructions, or materials contained therein.
References: Aarons, A. B. 1990. A guide to introductory physics teaching. New York: John Wiley and Sons. American Association for the Advancement of Science (AAAS). 1990. Science for all Americans American Association for the Advancement of Science (AAAS). 1993. Benchmarks for science literacy Ault, C. R., Jr. 1998. Criteria of excellence for geological inquiry: The necessity of ambiguity Ausubel, D. P. 1963. The psychology of meaningful verbal learning. New York: Grune and Stratton. Barman, C. R., and J. D. Stockton. 2002. An evaluation of the SOAR–High Project: A web-based science program for deaf students Bell, P. 2005. The school science laboratory: Considerations of learning, technology and scientific practice. Washington, DC: National Academies Press. Bell, P., and M. Linn. 2000. Scientific arguments as learning artifacts: Designing for learning from the web with KIE Biological Sciences Curriculum Study (BSCS). 1994. BSCS middle school science and technology, teacher’s guide Bishop, B. 1985. The social construction of meaning—A significant development in mathematics education Borron, R. 1978. Modifying science instruction to meet the needs of the hearing impaired Bransford, J. D., A. L. Brown, and R. R. Cocking, eds. 2000. How people learn: Brain, mind, experience, and school Bruner, J. 1961. The act of discovery. Harvard Educational Review 31: 21. Burgstahler, S. 2004. Universal design of instruction. Retrieved January 12, 2007, from the University of Washington DO-IT website: www.washington.edu/doit/ Bybee, R. W. 1997. Achieving scientific literacy. Portsmouth, NH: Heinemann. Caldwell, O. W. 1920. Reorganization of science in secondary schools (Bulletin No. Caldwell, O. W. 1924. Report of the American Association for the Advancement of Science, Committee on the Place of Science in Education Carnap, R. 1995. An introduction to the philosophy of science. New York: Dover. Cartier, J. 2000. Using a modeling approach to explore scientific epistemology with high school biology students (Research Report No 25, 2007, from the Wisconsin Center for Educational Research web site: www. Central Association of Science and Mathematics Teachers. 1915. Report of the Central Association of Science and Mathematics Teachers Committee on the Unified High School Science Course. School Science and Mathematics 15(4): 334. Chinn, C., and B. Malhotra. 2002. Epistemologically authentic inquiry in schools: A theoretical framework for evaluating inquiry tasks Collette, A. T., and E. L. Chiappetta. 1989. Science instruction in the middle and secondary schools Commission on the Reorganization of Secondary Education. 1918. The cardinal principles of secondary education (Bulletin No Committee on Secondary School Studies. 1893. Report of the Committee of Ten on secondary school studies Dalton, B., C. Morocco, T. Tivnan, and P. Mead. 1997. Supported inquiry science: Teaching for conceptual change in urban and suburban science classrooms. DeBoer, G. E. 2000. A history of ideas in science education: Implications for practice. New York: Teachers College, Columbia University. Dewey, J. 1910. How we think. Mineola, NY: Dover. Dewey, J. 1938. Experience and education. New York: Macmillan. Donohoe, K., and M. Zigmond. 1988. High school grades of urban LD students and low achieving peers Donovan, M. S., and J. D. Bransford. 2005. How students learn: Science in the classroom Driver, R., and B. F. Bell. 1986. Students’ thinking and the learning of science: A constructivist view Driver, R., and J. Easley. 1978. Pupils and paradigms: A review of literature related to concept development in adolescent science students Driver, R., J. Leach, R. Millar, and P. Scott. 1996. Young people’s images of science. Driver, R., P. Newton, and J. Osborne. 2000. Establishing the norms of scientific argumentation in classrooms Erwin, E., J. Ayala, and T. Perkins. 2001. You don’t have to be sighted to be a scientist do you? Issues and outcomes in science education. Journal of Visual Impairment and Blindness 95: 338–352. Ford, D. 2006. Representation of science within children’s trade books. Journal of Research in Science Teaching 43: 214–235. Frank, J., G. R. Luera, and W. B. Stapp. 1996. Air pollution ozone study and action. Giere, R. N. 1991. Understanding scientific reasoning (3rd ed.). New York: Harcourt Brace Jovanovich.