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Qualitative and Quantitative Aspects on Mathematics Achievement in MZ and DZ Twins

Published online by Cambridge University Press:  01 August 2014

A.L. Lange*
Affiliation:
Department of Educational Research, Stockholm Institute of Education, Sweden
S. Fischbein
Affiliation:
Department of Educational Research, Stockholm Institute of Education, Sweden
*
Department of Educational Research, Stockholm Institute of Education, Box 34103, S-100 26 Stockholm, Sweden

Abstract

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Mathematics achievement test results have been collected for 22 MZ and 24 DZ same-sex twin pairs in the Swedish compulsory school. The twins were approximately 11-13 years of age and attended grades 4, 5, or 6. The twin pairs were part of a larger collaborative study between Israel and Sweden (the KAM-project). Teachers were asked how they planned and evaluated their work in the subjects Swedish and Mathematics. In addition to this, results for the twins on Maths tests given by the teachers in their regular work were collected. These tests were thus used by the teachers as an instrument to evaluate the educational process. Intrapair similarity for MZ and DZ twins has been compared for qualitative and quantitative aspects of the Maths tests. Different tests were used by the teachers but the same criteria have been used in the comparison. MZ twins are somewhat more similar than DZ twins for both the qualitative and quantitative aspects. Only one quantitative aspect, however, percentage of correct answers, shows a significant difference between the twin categories. A comparison was also made of intrapair similarity in classes, where the teachers differed according to planning and evaluation of their education. Irrespective of that, the MZ twins seemed to be more similar than the DZ twins in number of correct answers on the Maths tests. Educational implications are discussed.

Type
Research Article
Copyright
Copyright © The International Society for Twin Studies 1990

References

REFERENCES

1.Arfwedson, G (1983): Why Are Schools Different? (in Swedish) Lund: Liber.Google Scholar
2.Fischbein, S (1979): Heredity-Environment Influences on Growth and Development During Adolescence. Lund: Liber.Google Scholar
3.Fischbein, S (1979): Biosocial aspects of mathematics learning. Scand J Educat Res 23:114.CrossRefGoogle Scholar
4.Fischbein, S (1986): Person-Environment Interaction in Educational Settings. Department of Educational Research, Stockholm Institute of Education, Report no 1.Google Scholar
5.Guttman, R, Nathan, M, Esrachi, A (1987): Restrictiveness-permissiveness of their environment as perceived by kibbutz twins and singletons. Acta Genet Med Gemellol 36:165170.Google Scholar
6.Kilborn, W (1979): The PUMP Project: Background and Experiences (in Swedish). Board of Education. Stockholm: Liber.Google Scholar
7.Kilborn, W (1981): What Does the Teacher Know About Basic Knowledge? (in Swedish). Stockholm: Liber.Google Scholar
8.Kylén, G (1986): Intelligence and Intelligence Handicap (in Swedish). Stiftelsen ALA, Handikappinstitutet, Stockholm.Google Scholar
9.Lindgren, G (1979): Peak velocities in height and mental performance. A longitudinal study of schoolchildren aged 10-14 years. Ann Hum Biol 6:559584.CrossRefGoogle ScholarPubMed
10.Ljung, B-O (1965): Adolescent Spurt in Mental Growth. Stockholm: Almqvist & Wiksell.Google Scholar
11.Ljung, B-O (1987): Mathematics ability in students of teaching (in Swedish). Department of Educational Research, Stockholm Institute of Education.Google Scholar
12.Marton, F (ed) (1986): Didactics. Volume III: Mathematics and Natural Sciences. Lund: Studentlitteratur.Google Scholar
13.Neuman, D (1987): The Origin of Arithmetic Skills. A Phenomenographic Approach. Doctoral thesis. The University of Gothenburg.Google Scholar