Technology in the Mathematics Classroom: Conceptual Orientation
Article
Mara Alagic, Wichita State University, United States
JCMST Volume 22, Number 4, ISSN 07319258 Publisher: Association for the Advancement of Computing in Education (AACE), Waynesville, NC USA
Abstract
Teaching mathematics through multiple representation frameworks presents an openended but complex learning structure. This article elaborates on teaching mathematics for conceptual understanding in the Information and Communication Technologies (ICT)based environment, by exploring conceptual understanding through multiple representations and addressing some effects of the cognitive tools to teaching and learning mathematics in such environments.
Citation
Alagic, M. (2003). Technology in the Mathematics Classroom: Conceptual Orientation. Journal of Computers in Mathematics and Science Teaching, 22(4), 381399. Norfolk, VA: Association for the Advancement of Computing in Education (AACE). Retrieved October 23, 2019 from https://www.learntechlib.org/primary/p/14520/.
© 2003 Association for the Advancement of Computing in Education (AACE)
Keywords
References
View References & Citations Map Ainsworth, S.E., Bibby, P.A., & Wood, D.J. (2002). Examining the effects of different multiple representational systems in learning primary mathematics. Journal of the Learning Sciences, 11 (1), 2562.
 Anderson, J.R. (2000). Cognitive psychology and its applications (5th ed.). New York: Worth Publishers.
 Byrom, E. (1997). Review of the professional literature on the integration of technology into educational programs. Retrieved January 30, 2002, from: http://www.serve.org/technology/litreview.html
 Cafolla, R., & Knee, R. (1995). Factors limiting technology integration in education: The leadership gap. Paper presented at the SITE95—Sixth Annual Conference of the Society for Information Technology and Teacher Education (SITE), San Antonio, TX.
 Cobb, P., Wood, T., & Yackel, E. (1991). Classrooms as learning environments for teachers and researchers. In R.B. Davis, C.A. Maher, & N. Noddings (Eds.) , Constructivist views on the teaching and learning of mathematics (pp. 125146). Reston , VA: National Council of Teachers
 Demana, F., & Waits, B.K. (1990). Enhancing mathematics teaching and learning through technology. In T.J. Cooney, & C.R. Hirsch (Eds.), Teaching and learning mathematics in the 1990s, 1990 yearbook of the national council ofteachers of mathematics (pp. 212222). Reston ,
 Flick, L., & Bell, R. (2000). Preparing tomorrow’s science teachers to use technology: Guidelines for Science educators. Contemporary Issues in Technology and Teacher Education, 1(1). Retrieved July 2, 2002, from: http://www.citejournal.org/vol1/iss1/currentissues/science/article1.htm
 Garofalo, J., Drier, H., Harper, S., Timmerman, M.A., & Shockey, T. (2000). Promoting appropriate uses of technology in mathematics teacher preparation. Contemporary Issues in Technology and Teacher Education, 1(1). Retrieved July 2, 2002 from: http://www.citejournal.org/vol1/iss1/currentissues/mathematics/article1.htm
 Greeno, J.G., & Hall, R.P. (1997). Practicing representation: Learning with and about representational forms. Phi Delta Kappan, 78, 361367.
 Heller, J.I., & Reif, F. (1984). Prescribing effective human problemsolving processes: Problem description in physics. Cognition and Ins truct ion, 1, 177216.
 Janvier, B. (1987). Problems of representation in the teaching and learning of mathematics. Hillsdale, NJ: Lawrence Erlbaum.
 Jiang, Z., & McClintock, E. (2000). Multiple approaches to problem solving and the use of technology. Journal of Computers in Mathematics and Science Teaching, 19(1), 720.
 Jonassen, D.H. (1992). Evaluating constructivistic learning. In T.M. Duffy, & D.H. Jonassen (Eds.), Constructivism and the technology of ins truc t ion (pp. 138148). Hillsdale, NJ: Lawrence Erlbaum.
 Jonassen, D.H., & Reeves, T.C. (1996). Learning with technology: Using computers as cognitive tools. In D.H. Jonassen (Ed.), Handbook of research for educational communications and technology (pp. 693719).
 Kidd, A. (1994). The marks are on the knowledge worker. Paper presented at the meeting of the Human Factors in Computing Systems (CHI’94), Boston.
 Lagrange, J.B. (2002). Integration of IC technologies into learning processes. In M. Borovcnik & H. Kautschitsch, (Eds.), Technology in Mathematics Teaching, Proceedings of ICTMT5 in K lagenfurt 2001. Schriftenreiche Didactik Der Mathematik , Band 25 (pp. 1315). Vienna
 Lesgold, A. (1998). Multiple representations and their implications for learning. In van M.W. Someren, P.Reimann, H.P.A. Boshuizen, & De T. Jong, (Eds.) , Learning with multiple representations. New York: Pergamon.
 National Council of Teachers of Mathematics. (2000). Principles and standards for school mathematics. Reston, VA: Author.
 National Research Council (2000). How people learn: Brain, kind, experience, and school. Washington, DC: National Academy Press.
 Papert, S. (1980). Mindstorms: Children, computers, and powerful ideals. New York: Basic Books.
 Perkins, D. (1993). An apple for education: Teaching and learning for understanding. American Educator, 17(3), 2835. Pestalozzi , H. (1803). ABC der Anschauung , oder AnschauungsLehre der Massverha l tn isse. Tubingen , Germany: J.G. Cotta.
 Salomon, G., Perkins, D.N., & Globerson, T. (1991). Partners in cognition: Extending human intelligence within tell igen t technologies. Educational Researcher, 20(3), 29.
 Schoenfeld, A.H. (1992). Learning to think mathematically: Problem solving, metacognition, and sensemaking in mathematics. In D.A. Grouws (Ed.) , Handbook of research on mathematics teaching and learning (pp. 334370). New York: Macmillan.
 Thompson, A.G., Philipp, R.A., Thompson, P.W., & Boyd, B.A. (1994). Calculational and conceptual orientations in teaching mathematics. In A. Coxford (Ed.) , 1994 Yearbook of the NCTM (pp. 7992). Reston ,
 Von Glasersfeld, E. (1988). The reluctance to change a way of thinking. The Irish Journal of Psychology, 9(1), 8390
 Wiebe, J.H. (1989). Teaching mathematics with technology: Calculator memory and multistep problems. Arithmetic Teacher, 37(1), 4849.
 Wood, T., Cobb, P., & Yackel, E. (1991). Change in teaching mathemat DASHDASH
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