Children’s Participation in a Virtual Epidemic in the Science Classroom: Making Connections to Natural Infectious Diseases

Alessi S. M., Trollip S. R., (2001). Multimedia for Learning: Methods and Development (3 ed.) Allyn & Bacon Boston

Aschbacher, P. (2003). Gender Differences in the Perception and Use of an Informal Science Learning Website. Grant funded by National Science Foundation, PGE 0086338. Arlington, VA

Au T. K., Romo L. F., (1996). Building a coherent conception of HIV transmission The Psychology of Learning and Motivation 35: 193–241

Au T. K., Romo L. F., (1999). Mechanical causality in children’s “folkbiology” In Medin D., Atran S. (Eds.), Folkbiology The MIT Press Cambridge, MA

Au T. K., Romo L. F., DeWitt J. E., (1999). Considering children’s folkbiology in health education In Siegal M., Peterson C. C., (Eds.), Children’s Understanding of Biology and Health Cambridge University Press Cambridge, UK

CBS News. (2004). Feds: No need for flu shot panic. Retrieved August 30: 2006 Centers for Disease Control and Prevention. Chapter 4 - prevention of specific infectious diseases. Retrieved August 30: 2006, from http://www2.ncid.cdc.gov/travel/yb/utils/ybGet.asp?section = dis&obj = sars.htm

Centers for Disease Control and Prevention. Teacher’s tools: Educational resources for teachers at K – 12 levels. Retrieved September 5, 2006, from http://www.cdc.gov/ncidod/teachers_tools/index.htm

Colella V., (2000). Participatory simulations: Building collaborative understanding through immersive dynamic modeling Journal of the Learning Sciences 9(4): 471–500

Dede, C., Ketelhut, D., and Ruess, K. (2002). Motivation, Usability, and Learning Outcomes in a Prototype Museum-based Multi-user Virtual Environment. Paper presented at the Proceedings of the Fifth International Conference of the Learning Sciences, Mahwah, NJ

Foley, B. J., and La Torre, D. (2004). Who Has Why-pox: A Case Study of Informal Science Education on the Net. Paper presented at the Sixth International Conference of the Learning Sciences, Los Angeles, CA

Gallas K., (1995). Talking their Way into Science: Hearing Children’s Questions and Theories Responding with Curricula Columbia University, Teachers College Press New York

Gredler, M. (1996). Educational games and simulations: A technology in search of a (research) paradigm. In D. H. J. A. f. E. C. a. Technology (Ed.), Handbook of Research for Educational Communications and Technology: A Project of the Association for Educational Communications and Technology. New York: Macmillan Library Reference USA

Hug, B., Krajcik, J. S., and Marx, R. W. (2001). Using Learning Technologies to Promote Learning and Engagement in an Urban Science Classroom. Paper presented at the NARST Annual Meeting, St. Louis, Missouri

Kafai Y. B., Ching C. C., (2001). Affordances of collaborative software design planning for elementary students’ science talk Journal of the Learning Sciences 10(3): 323–363

Kafai Y. B., Sutton S. (1999). Elementary school students’ home computer and Internet use: Current trends and issues. Journal of Educational Computing Research 21(3): 345–362

Kalish C. W., (1999). What young children’s understanding of contamination and contagion tells us about their concepts of illness In Siegal M., Peterson C. C. (Eds.), Children’s Understanding of Biology and Health Cambridge University Press Cambridge, UK

Krajcik J., Blumenfeld P., Marx R., Fredricks J., Soloway E., (1998). Inquiry in project-based science classrooms: Initial attempts by middle school students Journal of the Learning Sciences 7(3–4): 313–350

Lemke J. L., (1990). Talking Science: Language, Learning, and Values Ablex Pub. Corp Norwood, N.J

NRC. (1995). National Science Education Standards National Research Council Washington, DC

Obeidallah D., Turner P., Iannotti R. J., O’Brien R., Haynie D., Galper D., (1993). Investigating children’s knowledge and understanding of aids Journal of School Health 63(3): 125–129

Parmelee A. H., (1992). Wellness, illness, health, and disease concepts In Susman E. J., Feagans L. V., Ray W. J., (Eds.), Emotion, Cognition, Health, and Development in Children and Adolescents Lawrence Erlbaum Associates, Inc Hillsdale, NJ (pp. 155–164)

Science Education Partnership Award Program. Epidemiology and infectious diseases. from http://www.ncrrsepa.org/curriculum/By%20Subject/Epidemiology.htm

Siegal M., (1988). Children’s understanding of contagion and contamination as causes of illness Child Development 59(4–6): 1353–1359

Siegal M., Peterson C. C., (1999). Becoming mindful of biology and health: An introduction In Siegal M., Peterson C. C. (Eds.), Children’s Understanding of Biology and Health Cambridge University Press Cambridge, UK

Sigelman C., Derenowski E., Woods T., Mukai T., Alfeld-Liro C., Durazo O., et al. (1996a). Mexican-American and Anglo-American program children’s responsiveness to a theory-centered AIDS education program Child Development 67(2): 253–266

Sigelman C., Estrada A. L., Derenowski E., Woods T., (1996b). Intuitive theories of human immunodeficiency virus transmission Journal of Pediatric Psychology 21(4): 555–572

Solomon G. E., Cassimatis N. L., (1999). On facts and conceptual systems: Young children’s integration of their understandings of germs and contagion Developmental Psychology 35: 113–126

Soloway E., Norris C., Marx R., Blumenfeld P., Krajcik J., Fishman B., (2001). Handheld devices are ready at-hand Communciations of the ACM 44(6): 15–20

Wilensky, U., and Stroup, W. (1999). Learning Through Participatory Simulations: Network-based Design for Systems Learning in Classrooms Computer Supported Collaborative Learning. Paper presented at the CSCL, Stanford University