International Research Journal of Social Sciences, Education and Humanities

Mathematics is very important in various fields covering a wide range of academic activities undertaken by pupils in primary schools. It forms a solid foundation for future academic success. The purpose of this study was to assess the determinants of performance in mathematics amongst girls. The study sought to determine the extent to which teacher factors, girl factors, and school factors influence girls' mathematics performance. The study was driven by the academic achievement theory and the dynamic theory of school variables. The study employed both quantitative and qualitative methodologies and the target population consisted of 33 head teachers, 80 mathematics teachers, and 325 seventh-grade girls, totaling 438 respondents, from whom a sample of 208 was drawn by use of Yamane's Formula. Three head teachers and 19 mathematics teachers were chosen at random from each zone. However, 30 girls in class VII were randomly selected from each zone. The researcher sampled 12 head teachers, 88 mathematics teachers, and 120 girls in class VII using this procedure. Questionnaires and interview guides were used as data collection instruments. Qualitative data was analyzed thematically and presented in narrative form. Quantitative data was analyzed descriptively using frequencies, percentages, mean, and standard deviation. The study established that teacher related factors affect the performance of girls in mathematics subject, girls showed negative attitude towards mathematics, peer pressure is detrimental to girl’s math’s achievement. Most of the schools in Isinya Sub County have no conducive facilities to enhance performance of girls in mathematics. The study recommends that there is need to improvise measures that enhance teacher capacity for teaching efficiency. The government’ school management and other stake holders such as parents and advocacy organization needs to come up with multidimensional approach measures that work towards transforming girls identify and value.

Keywords: Teacher Factors, Girls’ Factors, School Factors, Performance in Mathematics

Adelman, N. (2013). An exploratory study of teacher alternative certification and retraining

programs (Data Analysis Support Center Contract No. 300-85-0103). Washington, DC: Policy Studies Associates.

Amarel, M. (2008). Site report: Academic Learning Program. Unpublished paper, National Center for Research on Teacher Education, Michigan State University, East Lansing.

Andrews, R. H. (2010). The development of a learning style program in a low socioeconomic, underachieving North Carolina elementary school. Journal of Reading, Writing, and Learning Disabilities International, 6 (3): 307-314.

Anobile, G., Cicchini, G. M. & Burr, D. C. (2012). Linear mapping of numbers onto space requires attention. Cognition 122, 454–459.

Beyon, J. (2012). Facility Matters: The Perception of Academic Deans Regarding the Role of Facilities in Higher Education. UNESCO.

Chen, Q. & Li, J. (2014). Association between individual differences in non-symbolic number acuity and number work performance: a meta-analysis. Acta Psychol. (Amst). 148, 163–172.

Clark, D. (2010). Selective schools and academic achievement. The B.E. Journal of Economic Analysis and Policy, 1-40.

Creswell, J. (2014). Research design: qualitative, quantitative and mixed methods approaches. Thousand Oaks, California: Sage Publications.

Darling-Hammond, A. (2010). Research perspectives on the graduate preparation of teachers. Englewood Cliffs, NJ: Prentice-Hall.

Davies, P. J. & Hersh, R. (2012). The Mathematical Experience. Boston: Mifflin Company.

Eshiwani, G. (2000). A Study of Women’s Access to Higher Education in Kenya with Special Reference to Mathematics and Science Education. Nairobi: Kenyatta University College.

Fennema, E., & Sherman, J. (2014). Sex-related differences in mathematics achievement, spatial visualization and affective factors. American Educational Research Journal, 14(1), 51-71

Floden, R. & Clark, C. (2012). Preparing teachers for uncertainty. Teachers College Record, 3(1): 12-22.

Fraser, B. J. & Kahle, J. B. (2014). Classroom, home and peer environment influences on student outcomes in science and number work: an analysis of systemic reform data, International Journal of Science Education, 29(15): 1891-1909.

Fuhs, M. W. & McNeil, N. M. (2013). Number work ability in preschoolers from low-income homes: contributions of inhibitory control. Dev. Sci. 16, 136–148.

Githua, B. N., & Mwangi, J. G. (2013). Students’ mathematics self-concept and motivation to learn mathematics: relationship and gender differences among Kenya’s secondary school students in Nairobi and Rift Valley Provinces. International Journal of Educational development, 6(23), 487- 499.

Habyarimana, R. H. (2011). Teacher Effectiveness and Student Achievement. Investigating a Multilevel Cross-Classified Model. Journal of Education Administration, 7(22).

Hyde, J. S., Fennema, E. H., & Lamon, S. J. (2010). Gender Differences in Mathematics Performance: A Meta-Analysis. Psychological Bulletin 107, 139-55.

Kabaka, M. (2011). Factors Affecting Student’s Choice of Science Subjects in Ugandan Primary Schools. Research in Science and Technological Education 4(1):99-109.

Klier, A. (2005). Girls and Schools in Sub-Saharan Africa: From Analysis to Action. Washington DC: World Bank.

Kyriakides, L. (2009). A synthesis of studies searching for school factors: Implications for theory and research. British Educational Research Journal, 3(2): 10-12.

Kwamboka, M. (2012). Demographic analysis in educational management. Abidjan: County House publishers.

Lucas, A. M. & Mbiti, I. M. (2012). Access, sorting, and achievement: the short-run effects of free primary education in Kenya. American Economic Journal: Applied Economics, 4(4), 226–253.

Mabula, S. (2015). Modeling student performance in mathematics using binary logistic regression at selected secondary schools: a case study of Mtwara municipality and Ilemela District. Journal of Education and Practice 6 (36), 96-103.

Martin, D., & Potter, L. (2013). How teachers can help students get their learning styles met at schools and at home. Education, 118 (4), 545-555.

McCaffrey, D. F., Korentz, D. M., Lockwood, J. R. & Hamilton, L. S. (2010). Evaluating Teacher Effectiveness: The What, How and Why. Paper presented at the second annual CALDER research conference, “The Ins and Outs of Value-Added Measures in Education: What Research Says,†Washington, D.C.

Mefor, C. (2014). Nigeria: Identifying Problems of Poor Performance in Mathematics and Way Out. Retrieved on 2019.

Moore, A. (2008). Teaching and learning: Pedagogy policy and Culture. London Rontledge Falmer.

Ojedapo, D., Fazio, L. K., Bailey, D. H., Thompson, C. A. & Siegler, R. S. (2014). Relations of different types of numerical magnitude representations to each other and to number work achievement. J. Exp. Child Psychol. 123, 53–72.

Onyango, G. A. (2010). Competencies Needed by Secondary School Head teachers and Implications on Pre-service Education. Unpublished PhD Thesis. Nairobi: Kenyatta University.

Oyedonkun, G.O. (2013). Attitudes of Students towards Mathematics Learning. Bachelor of Science (Ed.) Research Project. Ile-Ife, Nigeria: Obafemi Awolowo University.

Rea, L. M. & Parker, R. A. (2014). Designing and Conducting Survey Research: A Comprehensive Guide 3rd Edition. Amazon Printing Press.

Republic of Kenya (2015). A Policy Framework for Education, Training and Research: Meeting the challenges of education, training and research in Kenya in the 21st Century. Nairobi: Ministry of Education, Science, and Technology.

Reynolds, A. J., & Walberg, H. J. (1992). A structural model of science achievement. Journal of educational psychology, 83(1), 97.

Rivkin, S. G., Hanushek, E.A., and Kain, J. F. (2011). Teachers, schools, and academic achievement. Econometrica, 73(2), 417-458.

Rose, P. (2008). NGO Provision of Basic Education: Alternative or Complementary Service Delivery to Support Access to the Excluded? Brighton: University of Sussex.

Salau, M. (2014). Options in sustaining mathematics as a language science and technology in the 21st century. Paper presented at the Annual Conference ofMathematics Association of Nigeria (MAN)

Sankok, J. (2012). Influence of institutional factors on girl child’s participation in education in public secondary schools in Kajiado North district in Kajiado County, University of Nairobi.

Singh, K., Granville, M. & Dika, S. (2012). Number work and science achievement: effects of motivation, interest, and academic engagement, Journal of Educational Research, 95(6): 323–332.

Slater, R. O., & Teddlie, C. (1992). Toward a theory of school effectiveness and leadership. School Effectiveness and School Improvement, 3(4), 247-257.

Stacki, S. & Pigozzi, M. (2013). Empowering Female Teachers as an Interactive, Dialectic Process: Examples from South Asia,†Convergence, XXVIII (3), 14-25

United Nations Educational, Scientific and Cultural Organization (UNESCO) (2013). Positioning secondary-school education in developing countries: expansion and curriculum. Paris:

Unterhalter, E. & Dutt, S. (2001). Gender, Education and Women’s Power. Compare, 31 (1) 57.

Walberg, H., (2012). A psychological theory of educational outcomes and productivity. Psychological and Education pp. 81-110.