References
- Boyd, J., Delost, M., and Holcomb, J., (1998), “Calcium, phosphorus, and alkaline phosphatase laboratory values of elderly subjects,” Clinical Laboratory Science, 11, 223–227.
- Cobb, G. (1992), “Teaching Statistics,” in Heeding the Call for Change: Suggestions for Curricular Action, ed. L. A. Steen, pp. 3–43, Washington, DC: Mathematical Association of America.
- Cobb, G., and Moore, D. S. (1997), “Mathematics, Statistics, and Teaching,” The American Mathematical Monthly, 104, 801–823.
- Fillebrown, S. (1994), “Using Projects in an Elementary Statistics Course for Non-Science Majors,” Journal of Statistics Education [Online], 2 (2), ww2.amstat.org/publications/jse/v2n2/fillebrown.html.
- Halvorsen, K.T. and Moore, T.L., (2000), “Motivating, Monitoring and Evaluating Student Projects,” in Resources for Undergraduate Instructors Teaching Statistics, MAA Notes, No. 52, Washington DC: Mathematical Association of America.
- Holcomb, J. and Ruffer, R. (2000). “Using a term-long project sequence in introductory statistics,” The American Statistician, 54, 49–53.
- Johnson, R. W., (1996). “Fitting Percentage of Body Fat to Simple Body Measurements,” The Journal of Statistics Education, 4 (1), ww2.amstat.org/publications/jse/v4n1/datasets.johnson.html.
- Kimball, R. (1996). “Dealing with Dirty Data,” DBMS, 9 (10), www.dbmsmag.com/9609d14.html.
- Ledolter, J. (1995), “Projects in Introductory Statistics Courses,” The American Statistician, 49 (4), 364–367.
- Little, R. J. A., and Rubin, D. B. (2002). Statistical Analysis with Missing Data, 2nd edition, New York: Wiley — Interscience.
- Love, T. E. (1998). “A Project-Driven Second Course” Journal of Statistics Education [Online], 6 (1), ww2.amstat.org/publications/jse/v6n1/love.html.
- Love, T. E. (2000). “A Different Approach to Project Assessment” Journal of Statistics Education [Online], 8 (1) ww2.amstat.org/publications/jse/secure/v8n1/love.cfm.
- Mason, J., Gillenwater, K., Pugh, R., Kenefik, E., Collins, G., Whitaker, M., Volk, D. “Practical Analysis of Nutritional Data (PANDA),” Chapter 2, [Online], www.tulane.edu/~panda2/Analysis2/ahome.html.
- Radke-Sharpe, M. (1991), “Writing as a Component of Statistics Education,” The American Statistician, 45, 292–293.
- Radke-Sharpe, N., (2000), “Curriculum in Context: Teaching with Case Studies in Statistics Courses,” in Resources for Undergraduate Instructors: Teaching Statistics, MAA Notes, No. 52, Washington DC: Mathematical Association of America.
- Samsa, G., and Oddone, E. Z. (1994), “Integrating Scientific Writing Into a Statistics Curriculum: A Course in Statistically Based Scientific Writing,” The American Statistician, 48, 117–119.
- Sevin, A. (1995), “Some Tips For Helping Students In Introductory Statistics Classes Carry Out Successful Data Analysis Projects” in ASA Proceedings of the Section of Statistical Education, 159–164.
- Smith, G. (1998), “Learning Statistics By Doing Statistics” Journal of Statistics Education [Online], 6 (3), ww2.amstat.org/publications/jse/v6n3/smith.html.
- Stromberg, A. J., and Ramanathan, S. (1996), “Easy Implementation of Writing in Introductory Statistics Courses,” The American Statistician, 50, 159–163.
- Vaughan, T. S. (2003), “Teaching Statistical Concepts With Student-Specific Datasets” Journal of Statistics Education [Online], 11 (1) ww2.amstat.org/publications/jse/v11n1/vaughan.html.