
National Library of Virtual Manipulatives for Elementary and Middle Level Mathematics
PROCEEDINGS
Jim Dorward, Robert Heal, Utah State University, United States
WebNet World Conference on the WWW and Internet, in Honolulu, Hawaii Publisher: Association for the Advancement of Computing in Education (AACE), Chesapeake, VA
Abstract
Citation
Dorward, J. & Heal, R. (1999). National Library of Virtual Manipulatives for Elementary and Middle Level Mathematics. In Proceedings of WebNet World Conference on the WWW and Internet 1999 (pp. 1510-1511). Honolulu, Hawaii: Association for the Advancement of Computing in Education (AACE). Retrieved December 9, 2019 from https://www.learntechlib.org/primary/p/7655/.
© 1999 Association for the Advancement of Computing in Education (AACE)
Keywords
References
View References & Citations Map- Ball, S. (1988). Computers, concrete materials and teaching fractions. School Science and Mathematics, 88, 470475.
- Berlin, D. & White, A. (1986). Computer simulations and the transition from concrete manipulation of objects to abstract thinking in elementary school mathematics. School Science and Mathematics, 86, 468-479.
- Kieran, C. & Hillel, J. (1990). It ’s tough when you have to make the triangles angle : Insights from a computerbased geometry environment. Journal of Mathematical Behavior, 9, 99-127.
- Kim, S. (1993). The relative effectiveness of hands-on and computer-simulated manipulatives in teaching seriation, classification, geometric, and arithmetic concepts to kindergarten children. Dissertation Abstracts International, 54(09), 3319.
- National Council of Teachers of Mathematics (1999). Principles and Standards for School Mathematics: Discussion Draft. Reston, Va.: The Council.
- Nute, N. (1997). The impact of engagement activity and manipulatives presentation on intermediate mathematics achievement, time-on-task, learning efficiency, and attitude. Dissertation Abstracts International, 58(08), 2988.
- Pleet, L.J. (1990). The effects of computer graphics and mira on acquisition of transformation geometry concepts and development of mental rotation skills in grade eight. Dissertation Abstracts International, 52(06), 2058.
- Smith, J.P. (1995). The effects of a computer microworld on middle school students ’ use and understanding of integers. Dissertation Abstracts International, 56(09), 3492.
- Thompson, P.W. (1992). Notations, conventions, and constraints: Contributions to effective uses of concrete materials in elementary mathematics. Journal for Research in Mathematics Education, 23, 123-147.
- Terry, M.K. (1996). An investigation of differences in cognition when utilizing math manipulatives and math manipulative software. Dissertation Abstracts International, 56(07), 2650.
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The Use of Concrete Manipulatives in Online Mathematics Methods Courses
Linda Ann Arnold, The University of Tennessee, United States
E-Learn: World Conference on E-Learning in Corporate, Government, Healthcare, and Higher Education 2013 (Oct 21, 2013) pp. 569–574
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Third-Graders Learn About Fractions Using Virtual Manipulatives: A Classroom Study
Kelly Reimer, Fairfax County Public Schools, United States; Patricia S. Moyer, George Mason University, United States
Journal of Computers in Mathematics and Science Teaching Vol. 24, No. 1 (2005) pp. 5–25
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