References

Accreditation Board for Engineering and Technology. (2002). Criteria for accrediting engineering programs. Baltimore: Author. Available: http://www.abet.org [January 21, 2003].

Ambrose, B.S., Heron, P.R.L., Vokos, S., and McDermott, L.C. (1999). Student understanding of light as an electromagnetic wave: Relating the formalism to physical phenomena. American Journal of Physics, 67(10), 891–898.

American Association for the Advancement of Science. (1990). Science for all Americans. New York: Oxford University Press.

American Association of Physics Teachers. (2001). Workshop for new physics faculty: Background and purpose. Available: http://www.aapt.org/programs/newnfc1.html [January 7, 2003].

American Psychological Association. (2002). Undergraduate psychology major learning goals and outcomes. Available: http://www.apa.org/ed/pcue/taskforcereport.pdf [January 21, 2003].

Arons, A.B. (1983). Achieving wider scientific literacy. Daedalus, 112, 91–102.


Boyer, E.L. (1990). Scholarship reconsidered: Priorities of the professoriate. Princeton, NJ: Carnegie Foundation for the Advancement of Teaching.

Boyer Commission on Educating Undergraduates in the Research University. (1998). Reinventing undergraduate education: A blueprint for America’s research universities. Menlo Park, CA: Carnegie Foundation for the Advancement of Teaching. Available: http://naples.cc.sunysb.edu/Pres/boyer.nsf/ [January 21, 2003].


Chatterji, M. (2002). Models and methods for examining standards-based reforms and accountability initiatives: Have the tools of inquiry answered pressing questions on improving schools? Review of Educational Research, 72(3), 345–386.

Collins, A. (1990). Cognitive apprenticeship and instructional technology. In B.F. Jones and L. Idol (Eds.), Dimensions of thinking and cognitive instruction (pp. 121–138). Hillsdale, NJ: Erlbaum.


Duch, B., Gron, S., and Allen, D. (2001). The power of problem-based learning. Sterling, VA: Stylus.

Dwyer, F.M. (1972). The effect of overt responses in improving visually programmed science instruction. Journal of Research in Science Teaching, 9, 47–55.


Fink, L.D. (2002). Improving the evaluation of college teaching, In E.C. Wadsworth, L.R. Hilsen, and K.H. Gillespie (Eds.), A guide to faculty development: Practical advice, examples, and resources (pp. 46–58). Bolton, MA: Anker.


Glassick, C.E., Huber, M.T., and Maeroff, G.I. (1997). Scholarship assessed: Evaluation of the professorate. San Francisco: Jossey-Bass.

Gomez, L.G. (2001). Identifying and addressing student difficulties with rotational dynamics. Unpublished doctoral dissertation, University of Washington.


Halloun, I.A., and Hestenes, D. (1985). Commonsense concepts about motion. American Journal of Physics, 53, 1056–1065.



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References Accreditation Board for Engineering and Technology. (2002). Criteria for accrediting engineering programs. Baltimore: Author. Available: http://www.abet.org [January 21, 2003]. Ambrose, B.S., Heron, P.R.L., Vokos, S., and McDermott, L.C. (1999). Student understanding of light as an electromagnetic wave: Relating the formalism to physical phenomena. American Journal of Physics, 67(10), 891–898. American Association for the Advancement of Science. (1990). Science for all Americans. New York: Oxford University Press. American Association of Physics Teachers. (2001). Workshop for new physics faculty: Background and purpose. Available: http://www.aapt.org/programs/newnfc1.html [January 7, 2003]. American Psychological Association. (2002). Undergraduate psychology major learning goals and outcomes. Available: http://www.apa.org/ed/pcue/taskforcereport.pdf [January 21, 2003]. Arons, A.B. (1983). Achieving wider scientific literacy. Daedalus, 112, 91–102. Boyer, E.L. (1990). Scholarship reconsidered: Priorities of the professoriate. Princeton, NJ: Carnegie Foundation for the Advancement of Teaching. Boyer Commission on Educating Undergraduates in the Research University. (1998). Reinventing undergraduate education: A blueprint for America’s research universities. Menlo Park, CA: Carnegie Foundation for the Advancement of Teaching. Available: http://naples.cc.sunysb.edu/Pres/boyer.nsf/ [January 21, 2003]. Chatterji, M. (2002). Models and methods for examining standards-based reforms and accountability initiatives: Have the tools of inquiry answered pressing questions on improving schools? Review of Educational Research, 72(3), 345–386. Collins, A. (1990). Cognitive apprenticeship and instructional technology. In B.F. Jones and L. Idol (Eds.), Dimensions of thinking and cognitive instruction (pp. 121–138). Hillsdale, NJ: Erlbaum. Duch, B., Gron, S., and Allen, D. (2001). The power of problem-based learning. Sterling, VA: Stylus. Dwyer, F.M. (1972). The effect of overt responses in improving visually programmed science instruction. Journal of Research in Science Teaching, 9, 47–55. Fink, L.D. (2002). Improving the evaluation of college teaching, In E.C. Wadsworth, L.R. Hilsen, and K.H. Gillespie (Eds.), A guide to faculty development: Practical advice, examples, and resources (pp. 46–58). Bolton, MA: Anker. Glassick, C.E., Huber, M.T., and Maeroff, G.I. (1997). Scholarship assessed: Evaluation of the professorate. San Francisco: Jossey-Bass. Gomez, L.G. (2001). Identifying and addressing student difficulties with rotational dynamics. Unpublished doctoral dissertation, University of Washington. Halloun, I.A., and Hestenes, D. (1985). Commonsense concepts about motion. American Journal of Physics, 53, 1056–1065.

OCR for page 82
Healey, M., and Jenkins, A. (2000). Kolb’s experiential learning theory and its application in geography in higher education. Journal of Geography, 99, 185–195. Heller, P., Keith, R., and Anderson, S. (1992). Teaching problem solving through cooperative grouping. Part 1: Group versus individual problem solving. American Journal of Physics, 60(7), 627–636. Heller, P., and Hollabaugh, M. (1992). Teaching problem solving through cooperative grouping. Part 2: Designing problems and structuring groups. American Journal of Physics, 60(7), 637–644. Heron, P. (2002, November). Research as a guide to improving student learning in undergraduate physics. Presentation conducted at National Research Council’s Workshop Criteria and Benchmarks for Increased Learning from Undergraduate STEM Instruction, Washington, DC. Herreid, C. F. (1999). Dialogues as case studies; a discussion on human cloning. Journal of College Science Teaching, 29(4), 225–228. Honan, J.P., and Rule, C.S. (2002). Using cases in higher education: A guide for faculty and administrators. San Francisco: Jossey-Bass. Honan, W.H. (2002, August 14). The college lecture, long derided, may be fading. The New York Times, Section B, p. 7. Huba, M.E., and Freed, J.E. (2000). Learner-centered assessment on college campuses: Shifting the focus from teaching to learning. Boston: Allyn and Bacon. Hudson, L. (2002). Demographic and attainment trends in postsecondary education. In National Research Council, The knowledge economy and postsecondary education, (pp. 13–57). Committee on the Impact of the Changing Economy on the Education System. A.P. Graham and N. Stacey (Eds.). Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press. Jarmul, D., and Olson, S. (1996). Beyond Bio 101: The transformation of undergraduate biology education: A report from the Howard Hughes Medical Institute. Chevy Chase, MD: Howard Hughes Medical Institute. Kerr, C. (1987). A critical age in the university world. European Journal of Education, 22(2), 183–193. King, A. (1994). Inquiry as a tool in critical thinking. In D. F. Halpern (Ed.), Changing college classrooms: New teaching and learning strategies for an increasingly complex world (pp. 13–38). San Francisco: Jossey-Bass. Klahr, D., Chen, Z., and Toth, E.E. (2001). Cognitive development and science education: Ships that pass in the night or beacons of mutual illumination? In S.M. Carver and D. Klahr (Eds.), Cognition and instruction: Twenty-five years of progress (pp. 75–119), Mahwah, NJ: Erlbaum. Kolb, D.A. (1984). Experiential learning: Experience as the source of learning and development. Englewood Cliffs, NJ: Prentice-Hall. Laurillard, D. (2002). Rethinking university teaching: A conversational framework for the effective use of learning technologies. New York: Routledge. Laws, P.W. (1997). Workshop physics activity guide: Core volume with module 1. New York: Wiley. Lehrer, R., and Chazan, D. (1998). New directions for teaching and learning geometry. Hillsdale, NJ: Erlbaum. Loverude, M.E., Kautz, C.H., and Heron, P.R.L. (2002). Student understanding of the first law of thermodynamics: Relating work to the adiabatic compression of an ideal gas. American Journal of Physics, 70(2), 137–148. Marchese, T.J. (2002). The new conversations about learning: Insights from neuroscience and anthropology, cognitive science, and workplace studies. Available: http://www.aahe.org/members_only/TM-essay.htm [January 21, 2003]. Mazur, E. (1997). Peer instruction: A user’s manual. Upper Saddle, NJ: Prentice-Hall. McDermott, L.C. (1993). Guest comment: How we teach and how students learn—a mismatch? American Journal of Physics, 61(4), 295. McDermott, L.C. (2000, December). Improving student learning in science through discipline-based education research. Paper presented in response for the 2000 CSSP Award for Achievement in Education Research at the Council of Scientific Society Presidents National Meeting, Washington, DC. McDermott, L.C. (2001). Oersted Medal Lecture 2001: Physics education research–the key to student learning. American Journal of Physics, 69(11), 1127.

OCR for page 82
McDermott, L.C., Shaffer, P.S., and the Physics Education Group. (2002). Tutorials in introductory physics. Upper Saddle River, NJ: Prentice-Hall. McDermott, L.C., Shaffer, P.S., and Rosenquist, M.L. (1996). Physics by inquiry (Vols. I-II). New York: Wiley. Merton, R.K. (1957). Priorities in scientific discovery. American Sociological Review, 22(6), 635–659. Mestre, J.P. (1994). Cognitive aspects of learning and teaching science. In S.J. Fitzsimmons and L.C. Kerpelman (Eds.), Teacher enhancement for elementary and secondary science and mathematics: Status, issues and problems (NSF 94-80, pp. 3-1–3-53). Arlington, VA: National Science Foundation. Middaugh, M.F., Trusheim, D.W., and Bauer, K.W. (1994). Strategies for the practice of institutional research: Concepts, resources, and applications. Tallahassee: The Association for Institutional Research and The North East Association for Institutional Research. Minstrell, J.A. (1989). Teaching science for understanding. In L.B. Resnick and L.E. Klopfer, (Eds.), Toward the thinking curriculum: Current cognitive research (pp. 130–131). Alexandria, VA: Association for Supervision and Curriculum Development. Mintzes, J.J., and Wandersee, J.H. (1998). Research in science teaching and learning: A human constructivist view. In J.J. Mintzes, J.H. Wandersee, and J.D. Novak (Eds.), Teaching science for understanding: A human constructivist view (pp. 59–92). New York: Academic Press. Moore, J.A. (1999). Science as a way of knowing: The foundations of modern biology. Cambridge: Harvard University Press. National Center for Education Statistics. (2000). The condition of education 2000 (NCES 2000-062). Washington, DC: U.S. Department of Education. National Commission on Excellence in Education. (1983). A nation at risk: The imperative for educational reform. Washington, DC: U.S. Department of Education. National Research Council. (1997). Science teaching reconsidered: A handbook. Committee on Science Education. Center for Science, Mathematics, and Engineering Education. Washington, DC: National Academy Press. National Research Council. (1998). Teaching about evolution and the nature of science. Working Group on Teaching Evolution. Center for Science, Mathematics, and Engineering Education. Washington, DC: National Academy Press. National Research Council. (1999). Transforming undergraduate education in science, mathematics, engineering, and technology. Committee on Undergraduate Science Education. Center for Science, Mathematics, and Engineering Education. Washington, DC: National Academy Press. National Research Council. (2000). How people learn: Brain, mind, experience and school: Expanded edition. Committee on Developments in the Science of Learning. J.D. Bransford, A.L. Brown, and R.R. Cocking (Eds.) and Committee on Learning Research and Educational Practice. M.S. Donovan, J.D. Bransford, and J.W. Pellegrino (Eds.). Commission on Behavioral and Social Sciences and Education. Washington, DC: National Academy Press. National Research Council. (2001). Knowing what students know: The science and design of educational assessment. Committee on the Foundations of Assessment. J.W. Pellegrino, N. Chudowsky, and R. Glaser (Eds.). Commission on Behavioral and Social Sciences and Education. Washington, DC: National Academy Press. National Research Council. (2002a). BIO2010: Transforming undergraduate education for future research biologists. Committee on Undergraduate Biology Education to Prepare Research Scientists for the 21st Century. Board on Life Sciences. Washington, DC: National Academy Press. National Research Council. (2002b). Learning and understanding: Improving advanced study of mathematics and science in U.S. high schools. Committee on Programs for Advanced Study of Mathematics and Science in American High Schools. J.P. Gollub, M.W. Bertenthal, J.B. Labov, and P.C. Curtis (Eds.). Center for Education, Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press. National Research Council. (2002c). Scientific research in education. Committee on Scientific Principles for Education Research. R.J.

OCR for page 82
Shavelson and L. Towne (Eds.). Center for Education, Division of Behavioral and Social Sciences and Education. Washington, DC: National Academy Press. National Research Council. (2003). Evaluating and improving undergraduate teaching in science, technology, engineering, and mathematics. Committee on Recognizing, Evaluating, Rewarding, and Developing Excellence in Teaching of Undergraduate Science, Mathematics, Engineering, and Technology. M.A. Fox and N. Hackerman (Eds.). Center for Education, Division of Behavorial and Social Sciences and Education. Washington, DC: The National Academies Press. Organization for Economic Cooperation and Development. (2002). Understanding the brain: Toward a new learning science. Paris: Author. Partridge, B., and Greenstein, G. (2001). Goals for “Astro 101”: Report on a workshop for astronomy department leaders. Available: http://www.aas.org/education/aasprojects/workshop101.html [January 14, 2003]. Project Kaleidoscope. (2002). Recommendations for action in support of undergraduate science, technology, engineering, and mathematics: Report on reports. Washington, DC: Author. The Reinvention Center at Stony Brook. (2001, May). Reinventing undergraduate education: Three years after the Boyer report. Available: www.sunysb.edu/reinventioncenter/boyerfollowup.pdf [January 21, 2003]. Rogers, G.M. (2002a). Evaluating student learning: E=MC2 assessment methods. Terre Haute, IN: Rose-Hulman Institute of Technology. Rogers, G.M. (2002b). Evaluating student outcomes: E=MC2. Presentation conducted at National Research Council’s workshop Criteria and Benchmarks for Increased Learning from Undergraduate STEM Instruction, November, Washington, DC. Schwartz, D.L., and Bransford, J.D. (1998). A time for telling. Cognition and Instruction, 16(4), 475–522. Seldin, P. (1999). Changing practices in evaluating teaching. Bolton, MA: Anker. Seymour, E., and Hewitt, N.M. (1997). Talking about leaving: Why undergraduates leave the sciences. Boulder, CO: Westview Press. Shavelson, R.J., and Huang, L. (2003). Responding responsibly to the frenzy to assess learning in higher education. Change, 35(1), 11–19. Shulman, L. (1990). Aristotle had it right: On knowledge and pedagogy. (Occasional Paper No. 4). East Lansing, MI: The Holmes Group. Shulman, L.J. (1997). Disciplined inquiry in education: A new overview. In R.M. Jager and T. Barone (Eds.), Complementary methods for research in education (2nd ed., pp. 3–9). Washington, DC: American Educational Research Association. Sigma Xi, The Scientific Research Society. (1990). Entry-level undergraduate courses in science, mathematics and engineering: An investment in human resources. Research Triangle Park, NC: Author. Snyder, T.D. (Ed.). (2001). Digest of education statistics (NCES 2000-031). Washington, DC: U.S. Department of Education. Sokoloff, D.R., and Thornton, R.K. (1997). Using interactive lecture demonstrations to create an active learning environment. The Physics Teacher, 35(6), 340–347. Stabiner, K. (2003, January 12). Where the girls aren’t. The New York Times, p. 35. Stephans, J., Dyche, S., and Beiswanger, R. (1988). The effect of two instructional models in bringing about conceptual change in the understanding of science concepts by prospective elementary teachers. Science Education, 72(2), 185–195. Sundberg, M.D. (2002, Spring-Summer). Assessing student learning. Cell Biology Education, 1, 11–15. Terenzini, P.T., and Pascarell, E.T. (1994). Living with myths: Undergraduate education in America. Change, 26(1), 28–32. Tobias, S. (1992). Revitalizing undergraduate science: Why some things work and most don’t. Tucson, AZ: Research Corporation. Topping, K.J., and Stewart, E.W. (1998). Peer-assisted learning. Mahwah, NJ: Erlbaum. Twigg, C. (1999). Improving learning and reducing costs: Redesigning large-enrollment courses. Troy, NY: The Pew Learning and Technology Program. Available: http://www.center.rpi.edu/PewSym/mono1.html [January 14, 2003]. Tyler, R.W. (1949). Basic principles of curriculum and instruction. Chicago: University of Chicago Press. W.K. Kellogg Foundation. (2000). Leadership reconsidered: Engaging higher education in social change. A.W. Astin and H.S. Astin (Eds.). Battle Creek, MI: Author.

OCR for page 82
White, B.Y., and Fredericksen, J.R. (2000). Metacognitive facilitation: An approach to making scientific inquiry accessible to all. In J. Minstrell and E.H. Van Zee (Eds.), Inquiring into inquiry learning and teaching in science (pp. 331–370). Washington, DC: American Association for the Advancement of Science. Wiggins, G., and McTighe, J. (1998). Understanding by design. Upper Saddle River, NJ: Merrill, Prentice-Hall. Wilkerson, L., and Lewis, K.G. (2002). Classroom observation: The observer as collaborator. In E.C. Wadsworth, L.R. Hilsen, and K.H. Gillespie (Eds.), A guide to faculty development: Practical advice, examples, and resources (pp. 74–81). Bolton, MA: Anker. Wright, D.L. (2002). Program types and prototypes. In E.C. Wadsworth, L.R. Hilsen, and K.H. Gillespie (Eds.), A guide to faculty development: Practical advice, examples, and resources (pp. 24–34). Bolton, MA: Anker. Wright, J.C., Millar, S.B., Kosciuk, S.A., Penberthy, D.L., Williams, P.H., and Wampold, B.E. (1998). A novel strategy for assessing the effects of curriculum reform on student competence. Journal of Chemical Education, 75(8), 986–992. Zumeta, W., and Raveling, J.S. (2003). Attracting the best and the brightest. Issues in Science and Technology, 19(2), 36–40.