Sex differences in mathematical reasoning ability: Let me count the ways

Diane F. Halpern

doi:10.1017/S0140525X00049360

Abramson, J. & Franklin, B. (1986) Where they are now. The story of the women of Harvard Law 1974. Doubleday.Google Scholar

Adelson, J. (1985) What we don't know about sex differences. New Perspectives (Spring): 9–13.Google Scholar

Aiken, L. R. Jr, (1972) Research on attitudes toward mathematics. Arithmetic Teacher 19:229–234.Google Scholar

Aiken, L. R. Jr, & Dreger, R. M. (1961) The effect of attitudes on performance in mathematics. Journal of Educational Psychology 52:19–24.CrossRef Google Scholar

Anastasi, A. (1982) Psychological testing. Macmillan.Google Scholar

Anastasi, A. (1985) Reciprocal relations between cognitive and affective development with implications for sex differences. In: Nebraska symposium on motivation, 1984: Psychology and gender, ed. Sonderegger, T. B., University of Nebraska Press.Google Scholar

Anderson, D. K., Rhees, R. W. & Fleming, D. E. (1985) Effects of stress on differentiation of the sexually dimorphic nucleus of the preoptic area (SDN-POA) of the rat brain. Brain Research 332:113–118.CrossRef Google Scholar PubMed

Angoff, W., ed. (1971) The College Board Admissions Testing Program. Princeton, N.J.: College Entrance Examination Board.Google Scholar

Annett, M. & Kilshaw, D. (1982) Mathematical ability and lateral asymmetry. Cortex 18:547–568.Google Scholar

Arbeiter, S. (1985) Profiles, college-bound seniors, 1984. Princeton, N.J.: College Entrance Examination Board.Google Scholar

Arjmand, O., Benbow, C.P. & Lorenz, F. (in preparation) Attitude and parental encouragement patterns among intellectually talened males and females.Google Scholar

Armstrong, J. M. (1981) Achievement and participation of women in mathematics: Results of two national surveys. Journal for Research in Mathematics Education 12:356–372.CrossRef Google Scholar

Armstrong, J. M. (1985) A national assessment of particiapation and achievement of women in mathematics. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M.. Erlbaum.Google Scholar

Arnold, A. P. & Gorski, R. A. (1984) Gonadal steroid induction of structural sex differences in the central nervous system. Annual Reviews of Neuroscience 7:413–442.Google Scholar

Ashton, G. C. (1983) Myopia and cognitive ability. Behavior Genetics 13:526.Google Scholar

Ashton, G. C. (1986) Blood polymorphisms and cognitive abilities. Behavior Genetics 16:517–529.Google Scholar

Backman, M. E. (1972) Patterns of mental abilities: Ethnic, socioeconomic, and sex differences. American Educational Research Journal 9:1–12.Google Scholar

Barlow, F. (1969) Mental prodigies. Greenwod.Google Scholar

Bartsocas, C. S. & Kastrantas, A. D. (1981) X-linked form of myopia. Human Hereditas 31:199–200.Google Scholar

Basu, S. K. & Jindal, A. (1983) Genetic aspects of myopia among the Shia Muslim Dawoodi Bohras of Udaipur, Rajsthan. Human Hereditas 33:163–169.Google Scholar

Battle, E. S. (1966) Motivational determinants of academic competence. Journal of Personality and Social Psychology 4:634–642.Google Scholar

Beatty, W. W. (1979) Gonadal hormones and sex differences in nonreproductive behaviors in rodents: Organizational and activational influences. Hormones and Behavior 12:112–163.Google Scholar

Becker, B. J. (1978) The relationship of spatial ability to sex differences in the performance of mathematically precocious youths on the mathematical sections of the Scholastic Aptitude Test. Master's thesis. The Johns Hopkins University.Google Scholar

Becker, B. J. & Hedges, L. V. (1984) Meta-analysis of cognitive gender differences: A comment on an analysis by Rosenthal and Rubin. Journal of Educational Psychology 76:587–587.Google Scholar

Bell, A. D. & Variend, S. (1985) Failure to demonstrate sexual dimorphism of the corpus callosum in childhood. Journal of Anatomy 143:143–147.Google Scholar

Bern, S. L. (1974) The measurement of psychological androgyny. Journal of Consulting and Clinical Psychology 42:155–162.Google Scholar

Benbow, C. P. (1978) Sex-related differences in spatial ability. Master's thesis, The Johns Hopkins University.Google Scholar

Benbow, C. P. (1981) Development of superior mathematical ability during adolescence. Unpublished doctoral dissertation, The Johns Hopkins University.Google Scholar

Benbow, C. P. (1983) Adolescence of the mathematically precocious: A five-year longitudinal study. In: Academic precocity: Aspects of its development, ed. Benbow, C. P. & Stanley, J. C.. The Johns Hopkins University Press.Google Scholar

Benbow, C. P. (1986a) Home environments and toy preferences of extremely precocious students. Paper presented at the annual meeting of the American Educational Research Association, San Francisco.Google Scholar

Benbow, C. P. (1986b) Physiological correlates of extreme intellectual precocity. Neuropsychologia 24:719–725.Google Scholar

Benbow, C. P. (1986c) Book review of Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M.. In: Child Development Abstracts and Bibliography 60:61.Google Scholar

Benbow, C. P. (1987a) Factors associated with high achievement in mathematics and science among mathematically talented students: A longitudinal study. Paper presented at the annual meeting of the American Educational Research Association, Washington, D. C.Google Scholar

Benbow, C. P. (1987b) Possible biological correlates of precocious mathematical reasoning ability. Trends in Neuroscience 10:17–20.Google Scholar

Benbow, C. P. (1988) Neuropsychological perspectives on mathematical talent. In: The exceptional brain: Neuropsychology of talent and special abilities, ed. Obler, L. K. & Fein, D.. Guilford Press.Google Scholar

Benbow, C. P. (in preparation) Factors associated with high achievement in mathematics and science among mathematically talented students: A longitudinal study.Google Scholar

Benbow, C. P. & Benbow, R. M. (1984) Biological correlates of high mathematical reasoning ability. In: Sex differences in the brain – The relation between structure and function. Progress in Brain Research, vol. 61, ed. DeVries, G. J., DeBruin, J. P. C., Uylings, H. B. M. & Corner, M. A.. Elsevier Press.Google Scholar

Benbow, C. P. (1987) Extreme mathematical talent: A hormonally induced ability? In: Duality and unity of the brain (Vol. 47 of Wenner-Gren Center international symposium series), ed. Ottoson, D.. Macmillan.Google Scholar

Benbow, C. P., Hoff, E. & O'Boyle, M. (in preparation) Difference in brain organization between extremely intellectually talented students and average-ability students.Google Scholar

Benbow, C. P. & Minor, L. L. (1986) Mathematically talented students and achievement in the high school sciences. American Educational Research Journal 23:425–436.Google Scholar

Benbow, C. P. & Stanley, J. C. (1980) Sex differences in mathematical ability: Fact or artifact? Science 210:1262–1264.Google Scholar

Benbow, C. P. (1981) Mathematical ability: Is sex a factor? (Letter) Science 212:118–119.CrossRef Google Scholar

Benbow, C. P. (1982a) Consequences in high school and college of sex differences in mathematical reasoning ability: A longitudinal perspective. American Educational Research Journal 19:598–622.Google Scholar

Donlon, T. F. (1982b) Intellectually talented boys and girls: Educational profiles. Gifted Child Quarterly 26:82–88.Google Scholar

Donlon, T. F. (1983a) Differential course taking hypothesis revisited. (A commentary) American Educational Research Journal 20:469–73.Google Scholar

Donlon, T. F. (1983b) Sex differences in mathematical reasoning ability: More facts. Science 222:1029–1031.Google Scholar

Donlon, T. F. (1984) Gender and the science major. In: Advances in motivation and achivement, vol. 2, ed. Steinkamp, M. W. & Maehr, M. L.. JAI Press.Google Scholar

Benbow, C. P., Stanley, J. C., Zonderman, A. B. & Kirk, M. K. (1983) Structure of intelligence of intellectually precocious children and of their parents. Intelligence 7:129–152.Google Scholar

Berrebi, A. S., Fitch, R. H., Ralphe, D. L., Denenberg, J. O., Friedrich, V. L. Jr, & Denenberg, V. H. (1988) Corpus callosum: Region-specific effects of sex, early experience, and age. Brain Research 438:216–224Google Scholar

Besag, F. D. (1987) Gender, race, and ethnicity and math avoidance. Paper presented at the annual meeting of the American Educational Research Association, Washington, D.C.Google Scholar

Bieri, J., Bradburn, W. & Gallinsky, M. (1958) Sex differences in perceptive behavior. Journal of Personality 26:1–12.Google Scholar

Block, N. J. & Dworkin, G. (1974) IQ: Heritability and inequality, Part 1. Philosophy and Public Affairs 3:331–408.Google Scholar

Bloom, B. S., ed. (1956) Taxonomy of educational objectives. Handbook I: The cognitive domain. David McKay.Google Scholar

Boli, J., Allen, M. L. & Payne, A. (1985) High-ability women and men in undergraduate mathematics and chemistry courses. American Educational Research Journal 22:605–626.Google Scholar

Boller, F. & Grafman, J. (1985) Acalculia. In: Handbook of clinical neurology. Vol. 45: Clinical neuropsychology, ed. Vinken, P. J., Bruyn, G. W. & Klawans, H. L.. Elsevier.Google Scholar

Bornstein, R. A. (1984) Unilateral lesions and the Wechsler Adult Intelligence Scale-Revised: No sex differences. Journal of Consulting and Clinical Psychology 52:604–608.CrossRef Google Scholar PubMed

Boswell, S. L. (1985) The influence of sex-role stereotyping on women's attitudes and achievement in mathematics. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M.. Erlbaum.Google Scholar

Bradshaw, J. L. & Nettleton, N. C. (1981) The nature of hemispheric specialization in man. Behavioral and Brain Sciences 4:51–91.Google Scholar

Bradshaw, J. L. & Nettleton, N. C. (1983) Human cerebral asymmetry. Prentice-Hall.Google Scholar

Brody, L. E. (1985) The effects of an intensive summer program on the SAT scores of gifted seventh graders. Unpublished doctoral dissertation, The Johns Hopkins University.Google Scholar

Broverman, D. M., Broverman, I. K., Vogel, W., Palmer, R. D. & Klaiber, E. L. (1964) The automatization cognitive style and physical development. Child Development 35:1343–1359.Google Scholar

Brush, L. R. (1978) A validation study of the mathematics anxiety rating scale (MARS). Educational and Psychological Measurement 38:485–490.Google Scholar

Brush, L. R. (1980) Encouraging girls in mathematics: The problem and the solution. Abt Books.Google Scholar

Bryden, M. P. (1986) Dichotic listening performance, cognitive ability, and cerebral organization. Canadian Journal of Psychology 40:445–456.Google Scholar

Bryden, M. P., Hécaen, H. & Deagostini, M. (1983) Patterns of cerebral organization. Brain and Language 20:249–262.Google Scholar

Burnett, S. A. (1986) Sex-related differences in spatial ability: Are they trivial? American Psychologist 41:1012–1013.Google Scholar

Burnett, S. A., Lane, D. M. & Draft, L. M. (1979) Spatial visualiżation and sex differences in quantitative ability. Intelligence 3:345–354.Google Scholar

Burnett, S. A., Lane, D. M. & Draft, L. M. (1982) Spatial ability and handedness. Intelligence 6:57–68.Google Scholar

Burnett, S. A. & Peters, D. (1985) Spatial ability and visual memory. Paper presented at the annual meeting of the Southwestern Psychological Association. San Antonio, Texas.Google Scholar

Byne, W., Bleier, R. & Houston, L. (1986) Individual, age and sex-related differences in human corpus callosum: A study using magnetic resonance imaging. Society for Neuroscience Abstracts 12:719.Google Scholar

Caplan, P. J., Macpherson, G. M. & Tobin, P. (1985) Do sex-related differences in spatial abilities exist? American Psychologist 40:786–789.Google Scholar

Caramazza, A., Gordon, J., Zuriff, G. E. & Deluca, D. (1976) Right-hemispheric damage and verbal problem solving behavior. Brain and Language 3:41–46.CrossRef Google Scholar PubMed

Carey, G. L. (1958) Sex differences in problem-solving performance as a function of attitude differences. Journal of Abnormal and Social Psychology 56:256–260.Google Scholar

Center for the Advancement of Academically Talented Youth (1983) The CTY 1983 Talent Search Report. Baltimore: CTY.Google Scholar

Center for the Advancement of Academically Talented Youth (1984) The CTY 1984 Talent Search Report. Baltimore: CTY.Google Scholar

Center for the Advancement of Academically Talented Youth (1985) The CTY 1985 Talent Search Report. Baltimore: CTY.Google Scholar

Center for the Advancement of Academically Talented Youth (1986) The CTY 1986 Talent Search Report. Baltimore: CTY.Google Scholar

Chi, J. G., Dooling, D. C. & Gilles, F. H. (1977) Gyral development of the human brain. Annals of Neurology 1:86–93.Google Scholar

Chi, M. T. H. (1978) Knowledge structures and memory development. In: Children's thinking: What develops? ed. Siegler, R. S.. Erlbaum.Google Scholar

Chipman, S. F., Brush, L. R. & Wilson, D. M., eds. (1985) Women and mathematics: Balancing the equation. Erlbaum.Google Scholar

Chipman, S. F. & Thomas, V. G. (1985) Women's participation in mathematics: Outlining the problem. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M.. Erlbaum.Google Scholar

Chipman, S. F. & Thomas, V. G. (in press) The participation of women and minorities in mathematical, scientific, and technical fields. Review of Research in Education, vol. 14.Google Scholar

Chipman, S. F. & Wilson, D. M. (1985) Understanding mathematics course enrollment and mathematics achievement: A synthesis of the research. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M.. Erlbaum.Google Scholar

Clark, A. S., Maclusky, N. J. & Goldman-Rakic, P. S. (1986) Steroid hormone binding and metabolism in the cerebral cortex and limbic structures of the developing rhesus monkey brain. Society for Neuroscience 12:1217 (Abstract).Google Scholar

Clark, R. W. (1971) Einstein: The life and times. World Publishing.Google Scholar

Cockroft, W. H. (1980) Mathematics counts: Report of the committee of inquiry into teaching of mathematics. Her Majesty's Stationery Office.Google Scholar

Cohen, J. (1977) Statistical power analysis for the behavioral sciences. Academic Press.Google Scholar

Cohn, S. J. (1977) Cognitive characteristics of the top-scoring participants in SMPY's 1976 Talent Search. Gifted Child Quarterly 22:416–421.Google Scholar

Cohn, S. J., Cohn, C. M. G. & Jensen, A. R. (in press) Speed of information processing and myopia in academically gifted youths and their siblings. Intelligence.Google Scholar

College Board (1985) College-bound seniors, 1984–1982. Princeton, N. J.: College Board.Google Scholar

Connor, J. M. & Serbin, L. A. (1985) Visual-spatial skill: Is it important for mathematics? Can it be taught? In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M., Erlbaum.Google Scholar

Cooper, H. M. (1984) The integrative research review: A systematic approach. Sage.Google Scholar

Coren, S., Searleman, A. & Porac, C. (1986) Rate of physical maturation and handedness. Developmental Neuropsychology 2:17–23.Google Scholar

D'amico, C. & Kimura, D. (1987) Different subgroups of adextrals based on speech lateralization and ability patterns. Journal of Clinical and Experimental Neuropsychology 9:278 (Abstract).Google Scholar

Datta, L. (1985) Foreword. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M., Erlbaum.Google Scholar

Davis, J. A. (1965) Undergraduate career decisions: Correlates of academic choice. NORC Monograph in Social Research, No. 2.Google Scholar

Dawson, J. L. M. B. (1977) An anthropological perspective on the evolution and lateralization of the brain. In: Evolution and lateralization of the brain, ed. Dimond, S. J. & Blizard, D. A.. Annals of the New York Academy of Sciences, vol. 299.Google Scholar

Deaux, K. (1985) Sex and gender. Annual Review of Psychology 36:49–81.Google Scholar

De Lacoste-Utamsing, C. & Holloway, R. L. (1982) Sexual dimorphism in the human corpus callosum. Science 216:1431–1432.Google Scholar

Demeter, S., Ringo, J. & Doty, R. W. (1985) Sexual dimorphism in the human corpus callosum? Society for Neuroscience Abstracts 11:868.Google Scholar

DeRenzi, E. (1982) Disorders of space exploration and cognition. Wiley.Google Scholar

Deutsch, D. (1980) Handedness and memory for tonal pitch. In: Neuropsychology of left-handedness, ed. Herron, J.. Academic Press.Google Scholar

Devries, G. J., Debruin, J. P. C., Uylings, H. B. M. & Corner, M. A., eds. (1984) Sex differences in the brain – the relation between structure and function. Progress in brain research, vol. 26. Elsevier Press.Google Scholar

Devries, G. J., Debruin, J. P. C., Uylings, H. B. M. & Corner, M. A., (1984a) Sex differences in the brain. Progress in brain research, vol. 61. Elsevier Press.Google Scholar

Diamond, M. C., Dowling, G. A. & Johnson, R. E. (1981) Morphologic cerebral cortical asymmetry in male and female rats. Experimental Neurology 71:261–268.Google Scholar

Diamond, M. C., Murphy, G. M. Jr, Akiyama, K. & Johnson, R. E. (1982) Morphological hippocampal asymmetry in male and female rats. Experimental Neurology 76:553–566.Google Scholar

Diamond, S. J. & Beaumont, J. G. (1974) Hemisphere function in the human brain. Paul Elek.Google Scholar

Dix, L. (1987) Women: Their underrepresentation and career differentials in science and engineering. National Research Council.Google Scholar

Donlon, T. F. (1973) Content factors in sex differences in test questions. Educational Testing Service Research Monograph.Google Scholar

Donlon, T. F., Ekstrom, R. B. & Lockheed, M. (1976) Comparing the sexes on achievement test items of varying content. Paper presented at the annual meeting of the American Psychological Association, Washington, D.C.Google Scholar

Donovan, B. T. & Van Der Werff Ten Bosch, J. J. (1965) Physiology of puberty. Arnold.Google Scholar

Dornbusch, S. (1974) To try or not to try. Stanford Magazine 2:50–54.Google Scholar

Dougherty, K., Herbert, M., Edenhart-Pepe, M. & Small, A. (1980) Sex-related differences in mathematics, grades 2–5. Unpublished manuscript.Google Scholar

Dreger, R. M. & Aiken, L. R. Jr, (1957) The identification of number anxiety in a college population. Journal of Educational Psychology 48:344–351.Google Scholar

Dunphy, E. B. (1970) The biology of myopia. New England Journal of Medicine 283:796–800.Google Scholar

Dunteman, G. H., Wisenbaker, J. & Taylor, M. E. (1979) Race and sex differences in college science program participation. Report submitted to the National Science Foundation under contract NO. SED77–18728.Google Scholar

Dutton, W. H. (1956) Attitudes of junior high school pupils toward arithmetic. School Review 64:18–22.Google Scholar

Dutton, W. H. & Blum, M. P. (1968) The measurement of attitudes toward arithmetic with a Likert-type test. Elementary School Journal 68:259–264.Google Scholar

Dweck, C. S. (1986) Motivational problems affecting learning. American Psychologist 41:1040–1048.Google Scholar

Dweck, C. S., Davidson, W., Nelson, S. & Enna, B. (1978) Sex differences in learned helplessness; II. The contingencies of evaluative feedback in the classroom; and III. An experimental analysis. Developmental Psychology 14:268–276.Google Scholar

Dwyer, C. A. (1974) Influence of children's sex-role standards on reading and arithmetic achievement. Journal of Educational Psychology 66:811–816.Google Scholar

Eaton, W. D. & Enns, L. R. (1986) Sex differences in human activity level. Psychological Bulletin 100:19–28.Google Scholar

Eccles, J. (1985) Sex differences in achievement patterns. In: Nebraska symposium on motivation, 1984: Psychology and gender, ed. Sonderegger, T. B., University of Nebraska Press.Google Scholar

Eccles, J., Adler, T. & Meece, J. (1984) Sex differences in achievement: A test of alternate theories. Journal of Personality and Social Psychology 46:26–43.Google Scholar

Ehrhardt, A. A. & Baker, S. W. (1974) Fetal androgens, human CNS differentiation, and behavior sex differences. In: Sex differences in behavior, ed. Friedman, R. C., Richart, R. M. & Van de Wiele, R. L.. Wiley.Google Scholar

Eisenberg, L. (1986) Mindlessness and brainlessness in psychiatry. British Journal of Psychiatry 148:497–508.Google Scholar

Ellis, T. H. N. (1986) Restriction fragment length polymorphism markers in relation to quantitative characters. Theoretical and Applied Genetics 72:1–2.Google Scholar

Ernest, J. (1976) Mathematics and sex. American Mathematical Monthly 83:595–612.Google Scholar

Ethington, C. A. & Wolfle, L. M. (1984) Sex differences in a causal model of mathematics achievement. Journal for Research in Mathematics Education 15:361–377.Google Scholar

Ethington, C. A. & Wolfle, L. M. (1986) A structural model of mathematics achievement for men and women. American Educational Research Journal 23:65–75.Google Scholar

Fairweather, H. (1976) Sex differences in cognition. Cognition 4:231–280.Google Scholar

Farmer, H. S. (1987) A multivariate model for explaining gender differences in career and achievement motivation. Educational Researcher 16(2):5–9.Google Scholar

Fennema, E. (1974) Mathematics learning and the sexes: A review. Journal for Research in Mathematics Education 5:126–139.Google Scholar

Fennema, E. (1976) Influences of selected cognitive, affective, and educational variables on sex-related differences in mathematics learning. Prepared for National Institute of Education.Google Scholar

Fennema, E. & Sherman, J. (1977) Sex-related differences in mathematics achievement, spatial visualization, and sociocultural factors. American Educational Research Journal 14:51–71.Google Scholar

Fennema, E. (1978) Sex-related differences in mathematics achievement and related factors: A further study. Journal for Research in Mathematics Education 9:189–203.Google Scholar

Fennema, E. & Tartre, L. A. (1985) The use of spatial visualization in mathematics by girls and boys. Journal for Research in Mathematics Education 16:184–206.Google Scholar

Ferry, G. (1982) How women figure in science. New Scientist 94:10–13.Google Scholar

Fischbein, S. (1981) Heredity-environment influences of growth and development during adolescence. In: Twin research 3- Intelligence, personality, and development, ed. Gedda, L. et al. Alan, R. Liss.Google Scholar

Fitch, R. H., Berrebi, A. S. & Denenberg, V. H. (1987) Corpus callosum: Masculinized via perinatal testosterone. Society for Neuroscience Abstracts 13:688.Google Scholar

Flanagan, J. C., Dailey, J. T., Shaycoft, M. F., Gorham, W. A., Orr, D. B. & Goldberg, I. (1962) Design for a study of American youth. Houghton Mifflin.Google Scholar

Fleming, D. E., Anderson, R. H., Rhees, R. W., Kinghorn, E. & Bakaitis, J. (1986) Effects of prenatal stress on sexually dimorphic asymmetries in the cerebral cortex of the male rat. Brain Research Bulletin 16:395–398.Google Scholar

Fox, L. H. (1975) Career interests and mathematical acceleration for girls. Paper presented at annual meeting of American Psychological Association, Chicago.Google Scholar

Fox, L. H. (1976) Sex differences in mathematical precocity: Bridging the gap. In: Intellectual talent: Research and development, ed. Keating, D. P.. The Johns Hopkins University Press.Google Scholar

Fox, L. H. (1977) The effects of sex-role socialization on mathematics participation and achievement. In: Women and mathematics: Research perspectives for change, ed. Schoemaker, J.. National Institute of Education Papers in Education and Work, No. 8. Washington, D.C.: Education and Work Group, The National Institute of Education, United States Department of Health, Education, and Welfare.Google Scholar

Fox, L. H. (1982) Sex differences among the mathematically gifted. Paper presented at the annual meeting of the American Association for the Advancement of Science, Washington, D.C.Google Scholar

Fox, L. H., Benbow, C. P. & Perkins, S. (1983) An accelerated mathematics program for girls: A longitudinal evaluation. In: Academic precocity: Aspects of its development, ed. Benbow, C. P. & Stanley, J. C.. The Johns Hopkins University Press.Google Scholar

Fox, L. H., Brody, L. & Tobin, D. (1979) Women and mathematics: The impact of early intervention upon course-taking and attitudes in high school. Final report to the National Institute of Education, Grant No. NIE 6–77–0062.Google Scholar

Fox, L. H. eds. (1980) Women and the mathematical mystique. The Johns Hopkins University Press.Google Scholar

Fox, L. H. (1982) The study of social processes that inhibit or enhance the development of competence and interest in mathematics among highly able young women. Report to the National Institute of Education.Google Scholar

Fox, L. H. (1985) The impact of early intervention programs upon course-taking and attitudes in high school. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M.. Erlbaum.Google Scholar

Fox, L. H. & Richmond, L. J. (1979) Gifted females: Are we meeting their counseling needs? Personnel and Guidance Journal 57:256–59.Google Scholar

Fox, L. H., Tobin, D. & Brody, L. (1979) Sex-role socialization and achievement in mathematics. In: Sex-related differences in cognitive functioning: Developmental issues, ed. Wittig, M. & Petersen, A.. Academic Press.Google Scholar

Fraser, E. J. P. & Cormack, S. (in press) Women and mathematics: A different picture. Teaching mathematics and its applications.Google Scholar

Freed, N. H. (1983) Forseeable equivalent math skill of men and women. Psychological Reports 52:334.Google Scholar

Freter, S. H., Mikolowski, A., Fitch, R. H., Berrebi, A. S., Yutzey, D. A. & Dennenberg, V. H. (1987) Handling stimulation in infancy and gender: Effects upon maze learning and behavioral asymmetry. Society for Neuroscience Abstracts 13.Google Scholar

Friedman, A. & Poison, M. C. (1981) Hemispheres as independent resource systems: Limited-capacity processing and cerebral specialization. Journal of Experimental Psychology: Human Perception and Performance 7:1031–1058.Google Scholar

Frieze, I., Whiteley, B., Hanusa, B. & McHugh, M. (1982) Assessing the theoretical models for sex differences in causal attributions for achievement and failure. Sex Roles: A Journal of Research 8:333–344.Google Scholar

Garai, J. E. & Scheinfeld, A. (1968) Sex differences in mental and behavioral traits. Genetic Psychology Monographs 77:169–129.Google Scholar

Gardner, H. (1983) Frames of mind. Basic Books.Google Scholar

Gardner, H., Brownell, H. H., Wapner, W. & Michelow, D. (1983) Missing the point: The role of the right hemisphere in the processing of complex linguistic materials. In: Cognitive processing in the right hemisphere, ed. Perecman, E., Academic Press.Google Scholar

Garfinkel, A. S. (1982) Genetic and environmental influences on the development of Piagetían logico-mathematical concepts and other specific cognitive abilities: A twin study. Acta Geneticae Medicae et Gemellologiae 31:10–61.Google Scholar

Garvey, C. (1977) Play. Harvard University Press.Google Scholar

Geschwind, N. (1982) Why Orton was right. Annals of Dyslexia 32:13–30.Google Scholar

Geschwind, N. & Behan, P. (1982) Left-handedness: Association with immune disease, migraine, and developmental learning disorder. Proceedings of the National Academy of Sciences 79:5097–5100.Google Scholar

Geschwind, N. & Behan, P. (1984) Laterality, hormones, and immunity. In: Cerebral dominance: The biological foundations, ed. Geschwind, N. & Galaburda, A.. Harvard University Press.Google Scholar

Geschwind, N. & Galaburda, A. M. (1986) Cerebral lateralization. MIT Press.Google Scholar

Gilligan, C. (1982) In a different voice: Psychological theory and women's development. Harvard University Press.Google Scholar

Ginsburg, H. P. (1983) (Ed.) The development of mathematical thinking. Academic Press.Google Scholar

Glass, G. V., McGaw, B. & Smith, M. L. (1981) Meta-analysis in social research. Sage.Google Scholar

Glennon, V. J. & Gallahan, L. G. (1968) A guide to current research: Elementary school mathematics. Washington, D.C.: Association for Supervisional Curriculum Development.Google Scholar

Goldman, P. S. & Brown, R. (1975) The influence of neonatai androgen on the development of cortical function in the rhesus monkey. Society for Neuroscience 1:494 (Abstract).Google Scholar

Goldman, P. S., Crawford, H. T., Stokes, L. P., Galkin, T. W. & Rosvold, H. E. (1974) Sex-dependent behavioral effects of cerebral cortical lesions in the developing rhesus monkey. Science 186:540–542.Google Scholar

Goldman, P. S. & Rakic, P. T. (1979) Impact of the outside world upon the developing primate brain. Bulletin of the Menninger Clinic 43:20–28.Google Scholar

Goldman-Rakic, P. S. (1987) Circuitry of the primate prefrontal cortex and the regulation of behavior by representational memory. In: Handbook of physiology, ed. Mountcastle, V. & Plum, F., and American Physiological Society 5:373–417.Google Scholar

Goleman, D. (1987) Girls and math: Is biology really destiny? New York Times Education Supplement: 42–43.Google Scholar

Gordon, H. W. & Galatzer, A. (1980) Cerebral organization in patients with gonadal dysgenesis. Psychoneuroendocrinology 5:235–244.CrossRef Google Scholar PubMed

Gorski, R. A., Gordon, J. H., Shyrne, J. E. & Southam, A. M. (1978) Evidence for a morphological sex difference within the medial preoptic area of the rat brain. Brain Research 148:333–346.Google Scholar

Goy, R. W. & McEwen, B. S. (1981) Sexual differentiation of the brain. MIT Press.Google Scholar

Graf, G. & Ruddell, J. (1972) Sex differences in problem-solving as a function of problem content. Journal of Educational Research 65(10):451–452.Google Scholar

Green, P. R. (1980) Mechanical considerations in myopia: Relative effects of accommodation, convergence, intraocular pressure, and the extraocular muscles. American Journal of Optometry and Physiological Optics 57:902–914.Google Scholar

Hahn, W. K. (1987) Cerebral lateralization of function: From infancy through childhood. Psychological Bulletin 101:376–392.Google Scholar

Hall, K. R. L. & Devore, I. (1965) Baboon social behavior. In: Primate behavior: Field studies of monkeys and apes, ed. DeVore, I., Holt, Rinehart & Winston, .Google Scholar

Halpern, D. F. (1986a) Sex differences in cognitive abilities. Erlbaum.Google Scholar

Halpern, D. F. (1986b) A different answer to the question “Do sex differences in spatial abilities exist?” American Psychologist 41:1014–1015.Google Scholar

Hampson, E. & Kimura, D. (in press) Reciprocal effects of hormonal fluctuations on human motor and perceptuo-spatial skills. Behavioral Neuroscience.Google Scholar

Hardvek, C. (1977) A model of individual differences in hemispheric functioning. In: Studies in neurolinguistics, vol. 3, ed. Whitaker, H. & Whitaker, H. A.. Academic Press.Google Scholar

Hardyek, C., Petrinovich, L. F. & Goldman, R. F. (1976) Left-handedness and cognitive deficit. Cortex 12:266–279.Google Scholar

Harris, L. J. (1978) Sex differences in spatial ability: Possible environmental, genetic, and neurological factors. In: Asymmetrical function of the brain, ed. Kinsbourne, M.. Cambridge University Press.Google Scholar

Harris, L. J. (1980) Left-handedness: Early theories, facts, and fancies. In: Neuropsychology of left-handedness, ed. Herron, J.. Academic Press.Google Scholar

Harris, M. J. & Rosenthal, R. (1985) Mediation of interpersonal expectancy effects: Thirty-one meta-analyses. Psychological Bulletin 97:363–386.Google Scholar

Harshman, R. A. & Hampson, E. (1987) Normal variation in human brain organization: Relation to handedness, sex and cognitive abilities. In: Duality and unity of the brain (vol. 47 of Wenner-Gren Center International Symposium Series), ed. Ottoson, D.. Macmillan.Google Scholar

Harshman, R. A., Hampson, E. & Berenbaum, S. A. (1983) Individual differences in cognitive abilities and brain organization. Part I: Sex and handedness differences in ability. Canadian Journal of Psychology 37:144–192.Google Scholar

Haven, E. W. (1971) Factors associated with the selection of advanced academic mathematics courses by girls in high school. Doctoral dissertation, University of Pennsylvania. Dissertation Abstracts International 32:1747A.Google Scholar

Heath, A. C., Berg, K., Eaves, L. J., Solast, M., Corey, L. A., Sundet, J., Magnus, P. & Nance, W. E. (1985) Education policy and the heritability of educational attainment. Nature 314:734–735.Google Scholar

Hedges, L. V. & Olkin, I. (1985) Statistical methods for meta-analysis. Academic Press.Google Scholar

Heller, K. A. & Parsons, J. E. (1981) Sex differences in teachers' evaluative feedback and students' expectancies for success in mathematics. Child Development 52:1015–1019.Google Scholar

Herring, S. & Reitan, R. M. (1986) Sex similarities in verbal and performance IQ deficits following unilateral cerebral lesions. Journal of Consulting and Clinical Psychology 54:537–541.Google Scholar

Hier, D. B. & Crowley, W. F. Jr, (1982) Spatial ability in androgen deficient men. New England Journal of Medicine 306:1201–1205.Google Scholar

Hilton, T. L., Beaton, A. E. & Bower, C. P. (1971) Stability and instability in academic growth – a compilation of longitudinal data. Educational Testing Service.Google Scholar

Hilton, T. L. & Berglund, G. W. (1974) Sex differences in mathematics achievement: A longitudinal study. Journal of Educational Research 67:231–237.Google Scholar

Hines, M. (1982) Prenatal gonadal hormones and sex differences in human behavior. Psychological Bulletin 92:56–80.Google Scholar

Hines, M. & Gorski, R. A. (1985) Hormonal influences on the development of neural asymmetries. In: The dual brain, ed. Benson, D. F. & Zaidel, E.. Guilford Press.Google Scholar

Hines, M. & Shipley, C. (1984) Prenatal exposure to diethylstilbestrol (DES) and the development of sexually dimorphic cognitive abilities and cerebral lateralization. Developmental Psychology 20:81–94.Google Scholar

Holden, C. (1987) Female math anxiety on the wane. Science 236:600–601.Google Scholar

Holloway, R. L. & De Lacoste, M. C. (1986) Sexual dimorphism in the human corpus callosum: An extension and replication study. Human Neurobiology 5:87–91.Google Scholar

Hubbard, R., Henifin, M. S. & Fried, B. (1982) Biological woman: The convenient myth. Schenkman.Google Scholar

Humphreys, L. G., Davey, T. C. & Kashima, E. (1986) Experimental measures of cognitive privilege/deprivation and some of their correlates. Intelligence 10:355–376.Google Scholar

Hungerman, A. D. (1967) Achievement and attitude of sixth-grade pupils in conventional and contemporary mathematics programs. Arithmetic Teacher 14:30–39.Google Scholar

Hunter, J. E., Schmidt, F. L. & Jackson, G. B. (1982) Meta-analysis. Sage.Google Scholar

Husén, T. (1959). Psychological twin research 1: A methodological study. Almquist & Wiskells.Google Scholar

Husén, T. (1960) Abilities of twins. Scandinavian Journal of Psychology 1:125–135.Google Scholar

Husén, T. ed. (1967) International study of achievement in mathematics, vol. 2. Wiley.Google Scholar

Hyde, J. S. (1981) How large are cognitive gender differences? A meta-analysis using w² and d. American Psychologist 36:892–901.Google Scholar

Jackson, R. (1980) The Scholastic Aptitude Test: A reply to Slack and Porter's “Critical Appraisal.” Harvard Educational Review 50:282–391.Google Scholar

Jensen, A. R. (1969) How much can we boost IQ and scholastic achievement? Harvard Educational Review Reprint Series No. 2:1–123.Google Scholar

Johnson, M. M. (1963) Sex-role learning in the nuclear family. Child Development 34:319–324.Google Scholar

Johnson, N. L. & Kotz, S. (1970) Distributions in statistics: Continuous univariate distributions-1. Wiley.Google Scholar

Jones, L. V. (1987) The influence on mathematics test scores, by ethnicity and sex, of prior achievement and high school mathematics courses. Journal for Research in Mathematics Education 18:180–186.Google Scholar

Just, M. A. & Carpenter, P. A. (1985) Cognitive coordinate systems: Accounts of mental rotation and individual differences in spatial ability. Psychological Review 92:137–172.Google Scholar

Kail, R., Carter, P. & Pellegrino, J. (1979) The locus of sex differences in spatial ability. Perception and Psychophysics 26:182–186.Google Scholar

Karlsson, J. L. (1973) Genetic relationship between giftedness and myopia. Hereditas 73:85–86.Google Scholar

Karlsson, J. L. (1975) Influence of the myopia gene on brain development. Clinical Genetics 8:314–316.Google Scholar

Keating, D. P. (1974) The study of mathematically precocious youth. In: Mathematical talent: Discovery, description, and development, ed. Stanley, J. C., Keating, D. P. & Fox, L. H.. The Johns Hopkins University Press.Google Scholar

Keating, D. P. & Stanley, J. C. (1972) Extreme measures for the exceptionally gifted in mathematics and science. Educational Researcher 1(9):3–7.Google Scholar

Keeves, J. (1973) Differences between the sexes in mathematics and science courses. International Review of Education 19:47–63.Google Scholar

Keller, E. F. (1985) Reflections on gender and science. Yale University Press.Google Scholar

Kelly, A. (1979) Girls and science: An international study of sex differences in school science achievement. Stockholm: Almquist & Wiksell.Google Scholar

Kelly, D. D. (1985) Sexual differentiation of the nervous system. In: Principles of neural science, ed. Kandel, E. R. & Schwartz, J. H.. Elsevier Press.Google Scholar

Kenrick, D. T. (1987) Gender, genes, and the social environment: A biosocial interactionist perspective. In: Review of personality & social psychology. Vol. 8: Sex and gender, ed. Shaver, P. C. & Hendrick, C.. Sage Press.Google Scholar

Kessen, W. (1965) The child. Basic Books.Google Scholar

Kimura, D. (1987) Are men's and women's brains really different? Canadian Psychology 28:133–147.Google Scholar

Kinsbourne, M. (1974) Mechanisms of hemispheric interaction in man. In: Hemispheric cerebral function, ed. Kinsbourne, M. & Thomas, L. Smith. Charles.Google Scholar

Kolata, G. B. (1980) Math and sex: Are girls born with less ability? Science 210:1262.Google Scholar

Kolata, G. B. (1983) Math genius may have hormonal basis. Science 222:1312.Google Scholar

Kornbrot, D. E. (in press) Degree performance as a function of discipline studied, parental occupation, and gender. Higher Education.Google Scholar

Lansman, M., Donaldson, G., Hunt, E. & Yantis, S. (1982) Ability factors and cognitive processes. Intelligence 6:347–386.Google Scholar

Lawrence, G. (1984) A synthesis of learning style research involving the MBTI. Journal of Psychological Type 8:2–15.Google Scholar

Levy, J. (1976) Cerebral lateralization and spatial ability. Behavior Genetics 6:171–188.Google Scholar

Levy, J. & Gur, R. C. (1980) Individual differences in psychoneurological organization. In: Neuropsychology of left-handedness, ed. Herron, J.. Academic Press.Google Scholar

Levy, J. & Reid, M. (1978) Variations in cerebral organization as a function of handedness, hand posture in writing, and sex. Journal of Experimental Psychology: General 107:119–144.Google Scholar

Lewis, R. S. & Kamptner, N. L. (1987) Sex differences in spatial task performance of patients with and without unilateral cerebral lesions. Brain and Cognition 6:142–152.Google Scholar

Light, R. J. & Pillemer, D. B. (1984) Summing up: The science of reviewing research. Harvard University Press.Google Scholar

Linn, M. C. & Peterson, A. C. (1985) Emergence and characterization of sex differences in spatial ability: A meta-analysis. Child Development 56:1479–1498.Google Scholar

Loehlin, J. C. & Nichols, R. C. (1976) Heredity, environment, and personality: A study of 850 sets of twins. University of Texas Press.Google Scholar

Long, R. L. & Murray, M. E. (1982) Review: Neurophysiological aspects of developmental dyslexia. Developmental and Behavioral Pediatrics 3:2–6.Google Scholar

Luchins, E. H. & Luchins, A. S. (1980) Female mathematicians: A contemporary appraisal. In: Women and the mathematical mystique, ed. Fox, L. H., Brody, L. & Tobin, D.. The Johns Hopkins University Press.Google Scholar

Lyon, M. F. (1961) Gene action in the X-chromosome of the mouse (Mus musculus L.). Nature 190:S.372–373.Google Scholar

Maccoby, E. E. (1966) The development of sex differences. Stanford University Press.Google Scholar

Maccoby, E. E., Doering, C. H., Jacklin, C. N. & Kraemer, H. (1979) Concentrations of sex hormones in umbilical-cord blood: Their relation to sex and birth order of infants. Child Development 50:632–642.Google Scholar

Maccoby, E. E. & Jacklin, C. N. (1974) The psychology of sex differences. Stanford University Press.Google Scholar

Maclusky, N. J., Naftolin, F. & Goldman-Rakic, P. S. (1986) Estrogen formation and binding in the cerebral cortex of the developing rhesus monkey. Proceedings of the National Academy of Sciences 83:513–516.Google Scholar

Marshall, S. P. (1983) Sex differences in mathematical errors: An analysis of distractor choices. Journal for Research in Mathematics Education 14:325–336.Google Scholar

Martinez, D. & Halpern, D. F. (1987) Effects of sex and handedness on cognitive abilities. Paper presented at the Sixty-sixth Annual Convention of the Western Psychological Association, Long Beach, Calif.Google Scholar

Mateer, C. A., Polen, S. B. & Ojemann, G. A. (1982) Sexual variation in cortical localization of naming as determined by stimulation mapping. Behavioral and Brain Sciences 5:310–311.Google Scholar

Mayer, R. E. (1983) Thinking, problem solving, cognition. Freeman.Google Scholar

Mayer, R. E. (1985) Mathematical ability. In: Human abilities: An information-processing approach, ed. Sternberg, R.. Freeman, W. H..Google Scholar

McCall, J. R. (1955) Sex differences in intelligence: A comparative factor study. The Catholic University of America Press.Google Scholar

McGee, M. G. (1979) Human spatial abilities: Psychometric studies and environmental, genetic, hormonal, and neurological influences. Psychological Bulletin 86:889–918.Google Scholar

McGlone, J. (1980) Sex differences in human brain asymmetry: A critical analysis. Behavioral and Brain Sciences 3:215–263.Google Scholar

McKeever, W. F., Seitz, K. S., Hoff, A. L., Marino, M. F. & Diehl, J. A. (1983) Interacting sex and familial sinistrality characteristics influence both language lateralization and spatial ability in right-handers. Neuropsychologia 21:661–668.Google Scholar

McKeever, W. F., Vandeventer, A. D. & Suberi, M. (1973) Avowed-, assessed-, and familial-handedness and differential processing of brief sequential and nonsequential visual stimuli. Neuropsychologia 11:235–238.Google Scholar

Mebert, C. J. & Michel, G. F. (1980) Handedness in artists. In: Neuropsychology of left-handedness, ed. Herron, J.. Academic Press.Google Scholar

Meece, J. L., Parsons, J. E., Kaczala, C. M., Goff, S. B. & Futterman, R. (1982) Sex differences in math achievement: Toward a model of academic choice. Psychological Bulletin 91:324–348.Google Scholar

Millar, M. J. & Whitaker, H. A. (1983) The right hemisphere's contribution to language. In: Language functions and brain organization, ed. Millar, M. J. & Whitaker, H. A.. Academic Press.Google Scholar

Mills, C. J. (1981) Sex roles, personality, and intellectual abilities in adolescents. Journal of Youth and Adolescence 10:85–112.Google Scholar

Mills, C. J. (1984) Sex differences in self-concept and self-esteem for mathematically precocious adolescents. Paper presented at the Annual Meeting of the American Educational Research Association, New Orleans.Google Scholar

Mills, C. J. (1985) Psychological type and learning style differences in a gifted and normative population of adolescents. Paper presented at the Northeastern Educational Researchers Organization meeting, Rockport, Maine.Google Scholar

Minor, L. L. & Benbow, C. P. (1986) Construct validity of the SAT-M: A comparative study of high school students and gifted seventh graders. Paper presented at the annual meeting of the American Educational Research Association, San Francisco.Google Scholar

Mokros, J. R. & Koff, E. (1978) Sex-stereotyping of children's success in mathematics and reading. Psychological Reports 42:1287–1293.Google Scholar

Money, J. (1964) Two cytogenetic syndromes: Psychologic comparisons, 1. Intelligence and specific-factor quotients. Journal of Psychiatry Research 2:223–231.Google Scholar

Money, J. & Lewis, V. (1966) IQ, genetics and accelerated growth: Adrenogenital syndrome. Johns Hopkins Hospital Bulletin 118:365–373.Google Scholar

Moore, E. G. J. & Smith, A. W. (1987) Sex and ethnic group differences in mathematics achievement: Results from the National Longitudinal Study. Journal for Research in Mathematics Education 18:25–36.Google Scholar

Moore, M. A., Dubas, J. S. & Newcombe, N. (1987) Biological and experiential factors in sex-related differences in spatial ability. Paper presented to the Society for Research in Child Development, Baltimore.Google Scholar

Mullen, B. & Rosenthal, R. (1985) BASIC meta-analysis: Procedures and programs. Erlbaum.Google Scholar

Mura, R. (1987) Sex-related differences in expectations of success in undergraduate mathematics. Journal for Research in Mathematics Education 18:15–24.Google Scholar

Nasrallah, H. A., Andreasen, N. C., Coffman, J. A., Olson, S. C., Dunn, V. D., Ehrhardt, J. C. & Chapman, S. M. (1986) A controlled magnetic resonance imaging study of corpus callosum thickness in schizophrenia. Biological Psychiatry 21:274–282.Google Scholar

Nass, R., Baker, S., Speiser, P., Virdis, R., Balsamo, A., Cacciari, E., Loche, A., Dumic, M. & New, M. (1987) Hormones and handedness – Left-hand bias in female congenital adrenal hyperplasia patients. Neurology 37:711–714.Google Scholar

National Assessment of Educational Progress (1975) Males dominate in educational success. NAEP Newsletter 8:insert.Google Scholar

National Assessment of Educational Progress (1979) Mathematical knowledge and skills: Selected results from the second assessment of mathematics. Denver, Colorado: Education Commission of the States.Google Scholar

National Commission for Excellence in Education (1983) A nation at risk: The imperative for educational reform. U.S. Department of Education.Google Scholar

National Institute of Education (1977) Grants for research on education and work. Washington, D. C.: National Institute of Education.Google Scholar

Nesher, P. (1986) Learning mathematics: A cognitive perspective. American Psychologist 41:1114–1121.Google Scholar

Newcombe, N. (1982) Sex-related differences in spatial ability: Problems and gaps in current approaches. In: Spatial abilities: Development and physiological foundations, ed. Potegal, M.. Academic Press.Google Scholar

Newcombe, N. & Dubas, J. S. (1987) Individual differences in cognitive ability: Are they related to timing of puberty? In: Biological-psychosocial interactions in early adolescence, ed. Lerner, R. M. & Foch, T. T.. Erlbaum.Google Scholar

Nicholls, J. (1980) A re-examination of boys and girls causal attributions for success and failure based on New Zealand data. In: Achievement motivation: Recent trends in theory and research, ed. Fyans, L.. Plenum.Google Scholar

Nielsen, J., Nyborg, H. & Dahl, G. (1977) Turner's syndrome. A psychiatric-psychological study of 45 women with Turner's syndrome, compared with their sisters and women with normal karyotype, growth retardation, and primary amenorrhoea. Acta Jutlandica, Medicine Series 21. Aarhus University Press.Google Scholar

Nochlin, L. (1972) Why are there no great women artists? In: Woman in sexist society, ed. Gornick, V. & Moran, B.. New American Library.Google Scholar

Nordeen, E. J. & Yahr, P. (1982) Hemispheric asymmetries in the behavioral and hormonal effects of sexually differentiating mammalian brain. Science 218:391–393.Google Scholar

Nyborg, H. (1979) Sex chromosome abnormalities and cognitive performance. V. Female sex hormones and discontinuous cognitive development. Paper presented at the fifth biennial meeting of the International Society for the Study of Behavioural Development, Lund, Sweden.Google Scholar

Nyborg, H. (1983) Spatial ability in men and women: Review and new theory. Advances in Behavioural Research and Therapy 5:89–140.Google Scholar

Nyborg, H. (1984) Performance and intelligence in hormonally-different groups. In: Sex differences in the brain – the relation between structure and function. Progress in brain research, vol. 61, ed. DeVries, G. J., DeBruin, J. P. C., Uylings, H. B. M. & Corner, M. A.. Elsevier Press.Google Scholar

Nyborg, H. (1986) Sex chromosomes, sex hormones, and developmental disturbances: In search of a model. Paper presented at the 152nd Annual National Meeting of the American Association for the Advancement of Science, Philadelphia.Google Scholar

Nyborg, H. (1987) Covariant trait development across races, and within individuals. Paper presented at the third meeting of the International Society for the Study of Individual Differences, Toronto, Canada.Google Scholar

Nyborg, H. (submitted) Principles of sex hormonal regulation of body, brain and behavioral development.Google Scholar

Byborg, H. & Nielsen, J. (1981) Sex hormone treatment and spatial ability in women with Turner's syndrome. In: Human behavior and genetics, ed. Schmid, W. & Nielsen, J.. Elsevier.Google Scholar

O'boyle, M. W. & Hoff, E. J. (1987) Gender and handedness differences in mirror-tracing random forms. Neuropsychologia 25:977–982.Google Scholar

Oldfield, R. C. (1971) The assessment and analysis of handedness: The Edinburgh Inventory. Neuropsychologia 9:97–113.Google Scholar

Oppenheim, J. S., Lee, B. C. P., Nass, R. & Gazzaniga, M. S. (1987) No sex-related differences in human corpus callosum based on magnetic resonance imagery. Annals of Neurology 21:604–605.Google Scholar

Paige, J. R. & Simon, H. (1966) Cognitive processes in solving algebra word problems. In: Problem solving: Research, method, and theory, ed. Kleinmuntz, B.. Wiley.Google Scholar

Pallas, A. M. & Alexander, K. L. (1983) Sex differences in quantitative SAT performance: New evidence on the differential coursework hypothesis. American Educational Research Journal 20:165–182.Google Scholar

Parsons, J. E., Adler, T. F., Futterman, R., Goff, S. B., Kaczala, C. M., Meece, J. L. & Midgley, C. (1983) Expectancies, values, and academic behavior. In: Achievement and achievement motives: Psychological and sociological approaches, ed. Spence, J. T., Freeman, W. H..Google Scholar

Parsons, J. E., Adler, T. F. & Kaczala, C. (1982) Socialization of achievement attitudes and beliefs: Parental influences. Child Development 53:310–321.Google Scholar

Parsons, J. E., Kaczala, C. & Meece, J. (1982) Socialization of achievement attitudes and beliefs: Classroom influences. Child Development 53:322–39.Google Scholar

Pattison, P. & Grieve, N. (1984) Do spatial skills contribute to sex differences in different types of mathematical problems? Journal of Educational Psychology 76:678–89.Google Scholar

Paulsen, K. & Johnson, M. (1983) Sex-role attitudes and mathematical ability in 4th, 8th, and 11th grade students from a high socioeconomic area. Developmental Psychology 19:210–214.Google Scholar

Pederson, K., Elmore, P. & Bleyer, D. (1986) Parent attitudes and student career interests. Journal for Research in Mathematics Education 17:49–59.Google Scholar

Pedro, J. D., Wolleat, P., Fennema, E. & Becker, A. D. (1981) Election of high school mathematics by females and males: Attributions and attitudes. American Educational Research Journal 18:207–218.Google Scholar

Pellegrino, J. W. & Kair, R. Jr, (1982) Process analyses of spatial aptitude. In: Advances in the psychology of human intelligence, vol. 1, ed. Steinberg, R. J.. Erlbaum.Google Scholar

Petersen, A. C. (1976) Physical androgeny and cognitive functioning in adolescence. Developmental Psychology 12:524–533.Google Scholar

Peterson, P. L. & Fennema, E. (1985) Effective teaching, student engagement in classroom activities, and sex-related differences in learning mathematics. American Educational Research Journal 22:309–336.Google Scholar

Petrusic, W. M., Varro, L. & Jamieson, D. G. (1978) Mental rotation validation of two spatial ability tests. Psychological Research 40:39–148.Google Scholar

Plomin, R. & Daniels, D. (1987) Why are children in the same family so different from each other? Behavioral and Brain Sciences 10:1–59.Google Scholar

Poffenberger, T. & Norton, D. (1959) Factors in the formation of attitudes toward mathematics. Journal for Educational Research 52:171–176.Google Scholar

Poltrock, S. E. & Brown, P. (1984) Individual differences in visual imagery and spatial ability. Intelligence 8:93–138.Google Scholar

Pomerantz, S. M., Fox, T., Sholl, S. A., Vito, C. C. & Goy, R. (1985) Androgen and estrogen receptors in fetal rhesus monkey brain and anterior pituitary. Endocrinology 116:83–89.Google Scholar

Porac, C. & Coren, S. (1981) Lateral preferences and human behavior. Springer-Verlag.Google Scholar

Porac, C., Coren, S. & Searleman, A. (1986) Environmental factors in hand preference formation: Evidence from attempts to switch the preferred hand. Behavior Genetics 16:251–261.Google Scholar

Posner, M. I., Boies, S. J., Eichelman, W. H. & Taylor, R. L. (1969) Retention of visual and name codes of single letters. Journal of Experimental Psychology 79:1–16.Google Scholar

Potter, S. (1950) Lifemanship. Henry Holt.Google Scholar

Ray, W. J., Newcombe, N., Semon, J. & Cole, P. M. (1981) Spatial abilities, sex differences and EEG functioning. Neuropsychologia 19:719–722.Google Scholar

Raymond, C. L. & Benbow, C. P. (1986) Gender differences in mathematics: A function of parental support and sex-typing? Developmental Psychology 22:808–819.Google Scholar

Raymond, C. L. & Benbow, C. P. (submitted) Educational encouragement by parents: Its relationship to children's aptitude and perceptions and gender differences.Google Scholar

Read, D. B. (1981) Solving deductive reasoning problems after unilateral temporal lobectomy. Brain and Language 12:116–127.Google Scholar

Reinisch, J. M. (1984) Prenatal gonadal steroid influences on gender-related behavior. In: Progress in brain research, vol. 61, ed. De Vries, G. J., DeBruin, J. P. C., Uylings, H. B. M. & Corner, M. A.. Elsevier Press.Google Scholar

Reinisch, J. M. & Gandelman, R. (1978) Human research in behavioral endocrinology: Methodological and theoretical considerations. In: Hormones and brain development, ed. Dorner, G.. Elsevier Press.Google Scholar

Reinisch, J. M., Gandelman, R. & Spiegel, F. S. (1979) Prenatal influences on cognitive abilities: Data from experimental animals and human and endocrine syndromes. In: Sex-related differences in cognitive functioning: Developmental issues, ed. Wittig, M. & Petersen, A. C.. Academic Press.Google Scholar

Reinisch, J. M. & Sanders, S. A. (1984) Prenatal gonadal steroidal influences on gender-related behavior. Progress in Brain Research 61:407–416.Google Scholar

Reis, S. M. (1987) We can't change what we don't recognize: Understanding the special needs of gifted females. Gifted Child Quarterly 31(2):83–89.Google Scholar

Reschly, D. J. & Jipson, F. J. (1976) Ethnicity, geographic locale, age, sex, and urban-rural residence as variables in the prevalence of mind retardation. American Journal of Mental Deficiency 81:154–161.Google Scholar

Resnick, L. B. & Ford, W. W. (1981) The psychology of mathematics for instruction. Erlbaum.Google Scholar

Resnick, S. M., Berenbaum, S. A., Gottesman, I. I. & Bouchard, T. J. Jr, (1986) Early hormonal influences on cognitive functioning in congenital adrenal hyperplasia. Developmental Psychology 22:191–198.Google Scholar

Resnick, S. M. & Gottesman, I. I. (1978) Prenatal hormones and IQ: Need for sibling controls. British Journal of Psychiatry 132:205–206.Google Scholar

Robinson, H. B. (1983) A case for radical acceleration: Programs of The Johns Hopkins University and the University of Washington. In: Academic precocity: Aspects of its development, ed. Benbow, C. & Stanley, J.. The Johns Hopkins University Press.Google Scholar

Robitaille, D. F. (1977) A comparison of boys and girls feelings of self-confidence in arithmetic computation. Canadian Journal of Education 2:15–22.Google Scholar

Roland, P. E. & Friberg, L. (1985) Localization of cortical areas activated by thinking. Journal of Neurophysiology 53:1219–1243.Google Scholar

Rose, R. M., Holaday, J. W. & Bernstein, I. (1971) Plasma testosterone, dominance rank, and aggressive behavior in male rhesus monkeys. Nature 231:366–368.Google Scholar

Roselli, C. & Resko, J. (1986) Effects of gonadectomy and androgen treatment on aromatase activity in the fetal monkey brain. Biology of Reproduction 35:106–112.Google Scholar

Rosenthal, K. & Kimura, D. (1987) Hormonal influences on cognitive ability patterns. Department of Psychology Research Bulletin No. 653, University of Western Ontario, London, Canada.Google Scholar

Rosenthal, R., ed. (1980) Quantitative assessment of research domains. (New Directions for Methodology of Social and Behavioral Science, No. 5.) Jossey-Bass.Google Scholar

Rosenthal, R., ed. (1984) Meta-analytic procedures for social research. Sage.Google Scholar

Rosenthal, R., ed. (1987) Judgment studies: Design, analysis, and meta-analysis. Cambridge University Press.Google Scholar

Rosenthal, R. & Rosnow, R. (1985) Essentials of behavioral research: Methods and data-analysis. McGraw-Hill.Google Scholar

Rosenthal, R. & Rubin, D. B. (1982) Further meta-analytic procedures for assessing cognitive gender differences. Journal of Educational Psychology 74:708–712.Google Scholar

Rossiter, M. W. (1982) Women scientists in America. The Johns Hopkins University Press.Google Scholar

Rovet, J. & Netley, C. (1982) Processing deficits in Turner's Syndrome. Developmental Psychology 18:77–94.Google Scholar

Rushton, J. P. (in press) Race differences in behaviour: A review and evolutionary analysis. Personality and Individual Differences.Google Scholar

Sanders, B., Scares, M. P. & D'aquila, J. M. (1982) The sex difference on one test of spatial visualization: A nontrivial difference. Child Development 53:1106–1110.Google Scholar

Sapoisky, R. M. (1987) The case of the falling nightwatchman. Discover 8:42–45.Google Scholar

Satz, P. & Soper, H. (1986) Left-handedness, dyslexia, and autoimmune disorder: A critique. Journal of Clinical and Experimental Neuropsychology 8:453–458.Google Scholar

Scarr, S. & Saltzman, L. C. (1982) Genetics and intelligence. In: Handbook of human intelligence. Cambridge University Press.Google Scholar

Schachter, S. C., Ransil, B. J. & Geschwind, N. (1987) Association of handedness with haircolor and learning disabilities. Neuropsychologia 25:269–276.Google Scholar

Schaub, W. (1971) Die genealogische Datenbank im Dienste der Wissenschaft. Genealogie 20:577–585, 630–638.Google Scholar

Schoenfeld, A. H. (1985) Mathematical problem solving. Academic Press.Google Scholar

Searleman, A., Herrman, D. J. & Coventry, A. K. (1984) Cognitive abilities and left-handedness: An interaction between familial sinistrality and strength of handedness. Intelligence 8:295–304.Google Scholar

Segalowitz, S. J. & Bryden, M. P. (1983) Individual differences in hemispheric representation of language. In: Language functions and brain organization, ed. Segalowitz, S. J.. Academic Press.Google Scholar

Senk, S. & Usiskin, Z. (1983) Geometry proof writing: A new view of sex differences in mathematics ability. Journal of Educational Research 91:187–201.Google Scholar

Sergent, J. (1982) The cerebral balance of power: Confrontation or cooperation. Journal of Experimental Psychology: Human Perception and Performance 8:253–272.Google Scholar

Sherman, J. A. (1967) The problem of sex differences in space perception and aspects of individual functioning. Psychological Review 74:290–299.Google Scholar

Sherman, J. A. (1974) Field articulation, sex, spatial visualization, dependency, practice, laterality of the brain and birth order. Perceptual and Motor Skills 38:1223–1235.Google Scholar

Sherman, J. A. (1977) Effects of biological factors on sex-related differences in mathematics achievement. Women and mathematics: Research perspectives for change. NIE papers in Education and Work: No. 8.Google Scholar

Sherman, J. A. (1980) Mathematics, spatial visualization and related factors: Changes in girls and boys, grades 8–11. Journal of Educational Psychology 72:476–482.Google Scholar

Sherman, J. A. & Fennema, E. (1977) The study of mathematics by high school girls and boys: Related variables. American Educational Research Journal 14:159–168.Google Scholar

Siegler, R. J. (in press) Individual differences in strategy choices: Good students, not-so-good students, and perfectionists. Child Development.Google Scholar

Signorella, M. L. & Jamison, W. (1986) Masculinity, femininity, androgyny, and cognitive performance: A meta-analysis. Psychological Bulletin 100:207–228.Google Scholar

Smith, I. M. (1964) Spatial ability. The University of London Press.Google Scholar

Sofaer, J. & Emery, A. (1981) Genes for super-intelligence. Journal of Medical Genetics 18:410–413.Google Scholar

Sprafkin, C., Serbin, S. A., Denier, C. & Connor, J. M. (1983) Sex-differentiated play: Cognitive consequences and early interventions. In: Social and cognitive skills, ed. Liss, M. B.. Academic Press.Google Scholar

Stafford, R. E. (1964) Sex differences in spatial visualization as evidence of sex-linked inheritance. Perceptual and Motor Skills 13:4–28.Google Scholar

Stanley, J. C. (1982) Identification of intellectual talent. In: Measurement, guidance, and program improvement New directions for testing and measurement series, No. 13:97–109.Google Scholar

Stanley, J. C. (1987) Sex differences on cognitive tests: A summary. Paper presented at the annual meeting of the American Educational Research Association, Washington, D.C.Google Scholar

Stanley, J. C. (1987a) Gender differences on the College Board Achievement Tests and the Advanced Placement Examinations: Effect sizes versus some upper-tail ratios. Paper presented at the annual meeting of the American Educational Research Association, Washington, D.C.Google Scholar

Stanley, J. C. (1987b) Summary of points made in the symposium. Paper presented at the annual meeting of the American Educational Research Association, Washington, D.C.Google Scholar

Stanley, J. C. & Benbow, C. P. (1983) 15:1 isn't “catching up”! Psychological Reports 52:656.Google Scholar

Stanley, J. C. & Benbow, C. P. (1986) Youths who reason exceptionally well mathematically. In: Conceptions of giftedness, ed. Sternberg, R. J. & Davison, J., Cambridge University Press.Google Scholar

Stanley, J. C., Brody, L. E., Dauber, S. L., Lupkowski, A. E. & Benbow, C. P. (1987) Sex differences in cognitive abilities and achievements. A symposium presentation at the annual meeting of the American Educational Research Association, Washington, D.C.Google Scholar

Stanley, J. C., Huang, Jia-Fen & Zu, Xue-Min (1986) SAT-M scores of highly selected students in Shanghai tested when less than 13 years old. College Board Review 140:10–13, 28–29.Google Scholar

Steen, L. A. (1987) Mathematics education: A predictor of scientific competitiveness. Science 237:251Google Scholar

Stein, A. H. (1971) The effects of sex-role standards for achievement and sex-role preference on three determinants of achievement motivation. Developmental Psychology 4:219–231.Google Scholar

Stein, A. A. & Smithells, J. (1969) Age and sex differences in children's sex role standards about achievement. Developmental Psychology 1:252–259.Google Scholar

Stevenson, H. W., Lee, S.-Y. & Stigler, J. W. (1986) Mathematics achievement of Chinese, Japanese, and American children. Science 231:693–699.Google Scholar

Stright, V. M. (1960) A study of the attitudes toward mathematics of students and teachers in the third, fourth, and sixth grades. Arithmetic Teacher 7:280–286.Google Scholar

Sturt, E. & McGuffin, P. (1985) Can linkage and marker associations resolve the genetic aetiology of psychiatric disorders? Review and argument. Psychological Medicine 15:455–462.Google Scholar

Suydam, M. N. & Weaver, J. F. (1975) Using research: A key to elementary school mathematics. Columbus, Ohio: ERIC Science, Mathematics, and Environmental Education Clearinghouse in cooperation with the Center for Science and Mathematics.Google Scholar

Symons, D. (1979) The evolution of human sexuality. Oxford University Press.Google Scholar

Symons, D. (1987) The evolutionary approach: Can Darwin's view of life shed light on human sexuality? In: Theories of human sexuality, ed. Geer, J. H. & O'Donohue, W. T.. Plenum.Google Scholar

Tapley, S. M. & Bryden, M. P. (1977) An investigation of sex differences in spatial ability: Mental rotation of three-dimensional objects. Canadian Journal of Psychology 31:122–130.Google Scholar

Terman, L. M. (1954) Scientists and nonscientists in a group of 800 gifted men. Psychological Monographs 68(7):1–44.Google Scholar

Terman, L. M. & Oden, M. H. (1959) The gifted group at midlife. Genetic studies of genius, vol. 5. Stanford University Press.Google Scholar

Tiger, L. (1987) The manufacture of evil: Ethics, evolution, and the industrial system. Harper and Row.Google Scholar

Tiger, L. & Shepher, J. (1975) Women in the kibbutz. Harcourt, Brace, and Jovanovich.Google Scholar

Tobias, S. (1978) Overcoming math anxiety. Norton.Google Scholar

Tobias, S. & Weissbrod, C. (1980) Anxiety and mathematics: An update. Harvard Educational Review 50:63–70.Google Scholar

Tobin, D. (1986) A longitudinal study of values and career interests of mathematically gifted students. Unpublished doctoral dissertation, The Johns Hopkins University.Google Scholar

Toran-Allerand, D. (1986) Sexual differentiation of the brain. In: Developmental neuropsychobiology, ed. Greenough, W. T. & Juraska, J. M.. Academic Press.Google Scholar

Troup, G. A., Bradshaw, J. L. & Nettleton, N. C. (1983) The lateralization of arithmetic and number processing: A review. International Journal of Neuroscience 19:231–242.Google Scholar

Trune, D. (1982) Influence of neonatal cochlear removal on the development of mouse cochlear nucleus. 1. Number, size, and density of its neurons. Journal of Comparative Neurology 209:409–424.Google Scholar

Turner, H. (1938) A syndrome of infantilism, congenital webbed neck, and cubitus valgus. Endocrinology 23:566–574.Google Scholar

University of London (1985) General Certificate of Education Examination: Statistics. University of London Press.Google Scholar

U.S. Department of Education (1986) What works: Research about teaching and learning. Washington, D.C.Google Scholar

U.S. Department of Justice, Federal Bureau of Investigation (1979) Uniform Crime Reports of the United States, 1979. U.S. Government Printing Office.Google Scholar

Vandenberg, S. G. & Kuse, A. R. (1979) Spatial ability: A critical review of the sex-linked major gene hypotheses. In: Determinants of sex-related differences in cognitive functioning, ed. Wittig, M. C. & Petersen, A. C.. Academic Press.Google Scholar

Van Haaren, F. & Van De Poll, N. E. (1984) The effect of a choice alternative on sex differences in passive avoidance behavior. Physiology and Behavior 32:211–216.Google Scholar

Van Hest, A., Van Haaren, F. & Van De Poll, N. E. (1987) Behavioral differences between male and female Wistar rats on DRL schedules: Effects of stimuli providing collateral activities. Physiology and Behavior 39:255–261.Google Scholar

Vellutino, F. R. (1979) Dyslexia: Theory and research. MIT Press.Google Scholar

Very, P. S. (1967) Differential factor structures in mathematical ability. Genetic Psychology Monographs 75(2): 169–207.Google Scholar

Villardita, C. (1987) Verbal memory and semantic clustering in right brain-damaged patients. Neuropsychologia 25:277–280.Google Scholar

Waber, D. P. (1976) Sex differences in mental abilities: A function of maturation rate? Science 192:572–574.Google Scholar

Waber, D. P. (1977) Sex differences in mental abilities, hemispheric lateralization, and rate of physical growth at adolescence. Developmental Psychology 13:29–38.Google Scholar

Waber, D. P., Mann, M. B., Merola, J. & Moylan, D. M. (1985) Physical maturation rate and cognitive performance in early adolescence: A longitudinal evaluation. Developmental Psychology 21:666–681.Google Scholar

Walberg, H. J. (1983) Scientific literacy and economic productivity in international perspective. Daedalus 112:1–28.Google Scholar

Walberg, H. J. (1984) Improving the productivity of America's schools. Educational Leadership 41(8):19–27.Google Scholar

Walberg, H. J. & Tsai, S.-L. (1983) Matthew effects in education. American Educational Research Journal 20:359–373.Google Scholar

Warrington, E. K. (1982) The fractionation of arithmetic skills: A single case study. Quarterly Journal of Experimental Psychology 34A:31–51.Google Scholar

Weber, G. & Weis, S. (1986) Morphometric analysis of the human corpus callosum fails to reveal sex-related differences. Journal für Hirnforschung 2:237–240.Google Scholar

Webster, D. & Webster, M. (1977) Neonatal sound deprivation affects brain stem auditory nuclei. Archives of Otolaryngology 103:392–396.Google Scholar

Weiss, V. (1982) Psychogenetik. Jena: Gustar Fischer.Google Scholar

Werts, C. E. (1967) Career changes in college. Sociology of Education 40:90–95.Google Scholar

Wiesel, T. N. (1982) Postnatal development of the visual cortex and the influence of environment. Nature 299:583–592.Google Scholar

Williams, D. A. (1980) Do males have a math gene? Newsweek, December 15.Google Scholar

Wilson, J. W. (1972) Patterns of mathematics achievement in grade 11:Z population. National Longitudinal Study of Mathematical Abilities. Report No. 17. Stanford, Calif: School Mathematics Study Group.Google Scholar

Wilson, M. & Daly, M. (1985) Competitiveness, risk-taking, and violence: The young male syndrome. Ethology and Sociobiology 6:59–73.Google Scholar

Wise, L. L. (1985) Project Talent: Mathematics course participation in the 1960s and its career consequences. In: Women and mathematics: Balancing the equation, ed. Chipman, S. F., Brush, L. R. & Wilson, D. M., Erlbaum.Google Scholar

Wise, L. L., Steel, L. & Macdonald, C. (1979) Origins and career consequences of sex differences in high school mathematics achievement. American Institute for Research.Google Scholar

Witelson, S. F. (1976) Sex and the single hemisphere: Specialization of the right hemisphere for spatial processing. Science 193:425–427.Google Scholar

Witelson, S. F. (1985) The brain connection: The corpus callosum is larger in left-handers. Science 229:665–668.Google Scholar

Witelson, S. F. (1985a) An exchange on “gender” with R. C. Lewontin. New York Review of Books 32 (October 24):53–55.Google Scholar

Witelson, S. F. (1986) Wires of the mind: Anatomical variation in the corpus callosum in relation to hemispheric specialization and integration. Neurology and Neurobiology 17:117–138.Google Scholar

Witelson, S. F. (1987a) Neurobiological aspects of language in children. Child Development 58:653–688.Google Scholar

Witelson, S. F. (1987b) Hand preference and sex differences in the isthmus of the corpus callosum. Society for Neuroscience Abstracts 13:48.Google Scholar

Witelson, S. F. & Kigar, D. L. (1987) Individual differences in the anatomy of the corpus callosum: Sex, hand preference, schizophrenia and hemisphere specialization. In: Individual differences in hemisphere specialization, ed. Glass, A.. NATO ASI Series, 130. Plenum.Google Scholar

Witelson, S. F. & Kigar, D. L. (1988) Anatomical development of the human corpus callosum: A review with reference to sex and cognition. In: Developmental implications of brain lateralization, ed. Molfese, D. L. & Segalowitz, S. J.. Guilford Press.Google Scholar

Wolf, F. M. (1986) Meta-analysis: Quantitative methods for research synthesis. Sage.Google Scholar

Wolins, L. & Benbow, C. P. (in preparation) Item performance on the SAT-M: Differences by gender and between seventh graders and high school students.Google Scholar

Woolf, V. (1929) A room of one's own. Harcourt, Brace, Jovanovich.Google Scholar

Zaidel, E. (1978) Lexical organization in the right hemisphere. In: Cerebral correlates of conscious experience, ed. Buser, and Rougeul-Buser. INSERM Symposium No. 6. Elsevier Press.Google Scholar

Zimmerman, W. (1984) The reliability and validity of the Bern Sex Role Inventory. Unpublished doctoral dissertation, The Johns Hopkins University.Google Scholar

Zolog, A. (1983) Speech disturbances in parietal lobe lesions. Neurologie et Psychiatrie 21(3):165–167.Google Scholar

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Sex differences in mathematical reasoning ability: Let me count the ways

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Sex differences in mathematical reasoning ability: Let me count the ways

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