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1994 Book DidacticsOfMathematicsAsAScien
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matics classroom. Washington, DC: National Education Association.
Benbow, C. P. (1991). Mathematically talented children: Can acceleration meet their edu- cational needs? In N. Colangelo & G. A. Davis (Eds.), Handbook of gifted education (pp. 154-165). Boston: Allyn & Bacon. Benton, A. L. (1987). Mathematical disabilities and the Gerstmann syndrome. In G. Deloche & X, Seron (Eds.), Mathematical disabilities (pp. 111-120). Hillsdale, NJ: Erlbaum. Bhattacharya, D. N. (1982). Gifted children in mathematics: Case studies. Doctoral disser- tation, State University of New York at Buffalo, New York. Brown, M. D. (1991). The relationship between traditional instructional methods, contract activity packages, and math achievement of fourth grade gifted students. Doctoral disser- tation, University of Southern Mississippi, Mississippi. Brown, J. S., & Van Lehn, K. (1980). Repair theory: A generative theory of bugs in proce- dural skills. Cognitive Science, 4, 379-426. Clendening, C. P., & Davies, R. A. (1983). Challenging the gifted - Curriculum enrichment and acceleration models. New York: Bowker. Cox., L. S. (1975). Systematic errors in the four vertical algorithms in normal and handi- capped population. Journal for Research in Mathematics Education, 4, 202-220. Ginsburg, H. P. (1977). Children‘s arithmetic: The learning process. New York: Van Nostrand. Ginsburg, H. P. (1983). The development of mathematical thinking. New York: Academic Press. Grissemann, H., & Weber, A. (1982). Spezielle Rechenstörungen - Ursachen und Therapie. Bern: Huber. Hartje, W. (1987). The effect of spatial disorders on arithmetical skills. In G. Deloche & X. Seron (Eds.), Mathematical disabilities (pp. 121-135). Hillsdale, NJ: Erlbaum. Heller, K. A., & Feldhusen, J. F. (Eds.). (1986). Identifying and nurturing the gifted: An in- ternational perspective. Stuttgart: Huber. House, P. A. (Ed.). (1987). Providing opportunities for the mathematically gifted, K-12. Reston: NCTM. Jellen, H. G., & Verduin, J. R. (1986). Handbook for differential education of the gifted. Carbondale, IL: Southern Illinois University Press. Johnson, D. J., & Myklebust, H. R. (1971). Lernschwächen - Ihre Formen und ihre Behandungen. Stuttgart: Hippokrates. Klauer, K. J. (1992). In Mathematik mehr leistungsschwache Mädchen, im Lesen und Rechtschreiben mehr leistungsschwache Jungen? Zeitschrift für Entwicklungspsycho- logie und Pädagogische Psychologie, 24(1), 48-65. Kosc, L. (1974). Developmental dyscalculia. Journal of Learning Disabilities, 7, 164-177. Krutetskii, V. A. (1976). The psychology of mathematical abilities in schoolchildren. Chicago, IL: University of Chicago Press. 300 about the nature of their thoughts after they have completed their solving process. For retarded and gifted students, research has a strong theoretical orientation. Possible shortcomings of the interview technique (i.e., conducting the interview in a specific way that leads the student to answer in accordance with a certain theoretical model) must be controlled by accepting only those hypotheses and interpretations that are shared by several observers. REFERENCES JENS HOLGER LORENZ Lorenz, J. H. (1982). Lernschwierigkeiten im Mathematikunterricht der Grundschule und Orientierungsstufe. In H. Bauersfeld, H.-W. Heymann, G. Krummheuer, J. H. Lorenz, & V. Reiß (Eds.), Analysen zum Unterrichtshandeln (pp. 168-209). Köln: Aulis. Michael, W. B. (1977). Cognitive and affective components of creativity in mathematics and the physical sciences. In J. C. Stanley, W. C. George, & C. H. Solano (Eds.), The gifted and the creative: A fifty-year perspective (pp. 141-172). Baltimore, MD: Johns Hopkins University Press. Niegemann, H. M. (1988). Neue Wege in der pädagogischen -Diagnostik: Fehleranalyse und Fehlerdiagnostik im Mathematikunterricht. Heilpadagogische Forschung, 14(2), 77- 82. Radatz, H. (1980). Fehleranalysen im Mathematikunterricht. Braunschweig: Vieweg. Resnick, L. B. (1983). Toward a cognitive theory of instruction. In S. Paris, G. M. Olson, & H. W. Stevenson (Eds.), Learning and motivation in the classroom (pp. 5-38). Hillsdale, NJ: Erlbaum. Resnick, L. B. (1984). Beyond error analysis: The role of understanding in elementary school arithmetic. In H. N. Cheek (Ed.), Diagnostic and prescriptive mathematics issues, ideas, and insights (pp. 2-14). Kent, OH: Research Council for Diagnostic and Prescriptive Mathematics Resnick, L. B., & Neches, R. (1984). Factors affecting individual differences in learning ability. In R. J. Sternberg (Ed.), Advances in the psychology of human intelligence (pp. 275-323). Hillsdale, NJ: Erlbaum. Resnick, L.B., & Ford, W.W. (1981). The psychology of mathematics for instruction. Hillsdale, NJ: Erlbaum. Snider, J. H. (1986). Designing a program for gifted mathematics students in junior high/middle schools. Doctoral dissertation, George Peabody College for Teachers of Vanderbilt University, Tennessee. Stanley, J. C. (1977). Rationale of the Study of Mathematically Precocious Youth (SMPY) during its first five years of promoting educational accelaration. In J. C. Stanley, W. C. George, & C. H. Solano (Eds.), The gifted and the creative: A fifty-year perspective (pp. 75-112). Baltimore, MD: Johns Hopkins University Press. Stanley, J. C. (1979). The study and facilitation of talent for mathematics. In NSSE (Eds.), The gifted and the talented: Their education and development (pp. 169-185). Chicago, IL: University of Chicago Press. Tarnopol, M., & Tarnopol, L. (1979). Brain function and arithmetic disability. Focus on Learning Problems in Mathematics, 1, 23-39. Teyler, T. T. (1984). Brain functioning and mathematical abilities. In H. N. Cheek (Ed.), Diagnostic and prescriptive mathematics – Issues, ideas and insights (pp. 15-20). Kent, OH: Research Council for Diagnostic and Prescritive Mathematics. Underhill, R. G. (1977). Teaching elementary school mathematics. Columbus, OH: Bell & Howell. Wilmot, B. A. (1983). The design, administration, and analysis of an instrument which identifies mathematically gifted students in grades four, five and six. Doctoral disserta- tion, University of Illinois at Urbana-Champaign, Illinois. 301 SHOULD GIRLS AND BOYS BE TAUGHT DIFFERENTLY? Gila Hanna Toronto 1. INTRODUCTION The current social and political climate in much of the world dictates that public education provide the same opportunity to females as it does to males. This is in sharp contrast to a traditional view that assigned entirely different spheres of activity and achievement to the two sexes and accord- ingly saw unequal access to education for males and females as part of the natural order. In this context, the issue of women's participation in mathematics is a Download 5.72 Mb. Do'stlaringiz bilan baham: 
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