Hostname: page-component-848d4c4894-ttngx Total loading time: 0 Render date: 2024-05-17T12:31:49.083Z Has data issue: false hasContentIssue false
  • English
  • Français

An Enriched Mathematical Program for Young Aboriginal Children

Published online by Cambridge University Press:  22 July 2015

Jan Currie ,
Barry Kissane  and
Harriett Pears
Jan Currie
Affiliation:
School of Education, Murdoch University
Barry Kissane
Affiliation:
School of Education, Murdoch University
Harriett Pears
Affiliation:
School of Education, Murdoch University
Get access

Abstract

This paper provides some early results on a project designed to improve Aboriginal children's performance in mathematics, starting from their earliest introduction to number work. It explores the use of an enriched mathematics environment that minimally conflicts with traditional Aboriginal learning styles. The study is concerned with evaluating the effectiveness of a program intervention in remote Aboriginal schools, based on the results of pre- and post-interviews given to children at eight different schools in Western Australia at the beginning and end of 1989 and 1990. Comparison data with those for children at other schools are provided in this paper. The data derive from interviews with young children, and provide evidence on their performance in several key areas of early mathematics. Schools were categorized into three groups: White middle class; town Aboriginal and working class; and remote Aboriginal. The White middle class schools had the highest performance, followed by the town Aboriginal and White working class schools and the remote Aboriginal schools. There was a rather consistent gain in mean scores for most schools of around four points over the course of the first year so that existing differences between schools at the beginning of the year were still evident at the end of the year. At this stage it is difficult to conclude whether the intervention program has improved mathematics achievement for this group of remote Aboriginal children. There is at least no evidence of ‘progressive retardation’, which describes the current situation where Aboriginal children fall farther behind as they progress through school.

Type
Research Article
Information
The Australian Journal of Indigenous Education , Volume 20 , Issue 1 , March 1992 , pp. 15 - 37
Copyright
Copyright © Cambridge University Press or the authors 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Brod, R.L. (1979) Choctaw Education. LPS & Associates, Rocky Boy's Route, Box Elder, MT 59521, December.Google Scholar
Bucknall, J. and Bucknall, G. (1988) Review of Aboriginal Independent Schools, Western Australia, Prepared for the Review of Aboriginal Independent Schools' Steering Committee, Broome: Ngurnipali Ngurnarri: Aboriginal Education Consultants.Google Scholar
Butler, S.R. and Marsh, H.W. (1986) “Reading and Arithmetic Achievement in Primary Years for Students from Non-English Speaking Families: A Seven-Year Longitudinal Comparison”, Australian Journal of Education, 30 (1), 23-44.Google Scholar
Cockcroft, W.H. (1982) Mathematics Counts, London: HMSO.Google Scholar
Cocking, R.R. and Chipman, S. (1988) “Conceptual Issues related to Mathematics Achievement of Language Minority Children”, In Cocking, R.R. and Mestre, J.P. (Eds) Linguistic and Cultural Influences on Learning Mathematics. Hillsdale, New Jersey: Lawrence Erlbaum Associates.Google Scholar
Coombs, L.M. (1970) The Educational Disadvantage of the American Indian Student. Las Cruces, New Mexico: New Mexico State University.Google Scholar
Cheek, H.N. (1984) “A Suggested Research Map for Native American Mathematics Education”, Journal of American Indian Education, 23 (2) January, 1-9.Google Scholar
Cuevas, G. (1984) “Mathematics Learning in English as a Second Language”, Journal for Research in Mathematics Education, 15 (2), 134-144.Google Scholar
Currie, J., Kissane, B., Kemp, M., & Pears, H. (1990) “Improving Mathematics of Aboriginal Children in a Remote Community: Interview Results 1989”. Unpublished paper, Murdoch University.Google Scholar
Dawe, L. (1983) “The Development of Inquiry Skills in Mathematics and Science: Problems for the Bilingual Child”, in Blane, D. (Ed) The Essentials of Mathematics Education. Melbourne: Mathematics Association of Victoria.Google Scholar
De Lacey, P.R. (1970) “A Cross-Cultural Study of Classificatory Ability in Australia”, Journal of Cross-Cultural Psychology, 1 (4), 293-304.Google Scholar
De Lacey, P.R. (1971) “Verbal Intelligence, Operational Thinking and Environment in Part-Aboriginal Children”, Australian Journal of Psychology, 23 (2), 145-49.Google Scholar
De Lemos, M. (1969) “The Development of Conservation in Aboriginal Children”, International Journal of Psychology, 4 (4), 255-69.Google Scholar
Graham, B. (1984) “Finding Meaning in Maths: An Introductory Program for Aboriginal Children”, The Aboriginal Child at School, 12 (4), 24-39.CrossRefGoogle Scholar
Graham, B. (1988) “Mathematical Education and Aboriginal Children:, Educational Studies in Mathematics, 19, 119-135.CrossRefGoogle Scholar
Hedges, L.V. and Stodolsky, S.S. (1987) A Formative Evaluation of Kindergarten Everyday Mathematics, Chicago: University of Chicago School Mathematics Project.Google Scholar
Hedges, L.V., Stodolsky, S.S. and Mathison, S. (1988) A Follow-up of Kindergarten Everyday Mathematics Users. Chicago: University of Chicago School Mathematics Project.Google Scholar
Hunting, R. & Whitely, H. (1983) “Mathematics, Prior Knowledge and the Australian Aborigine”, Research in Mathematics Education in Australia, MERGA, 3-24.Google Scholar
Kearins, J. (1976) “Skills of Desert Aboriginal Children”, In Kearney, G.E. and McElwain, D.W. (Eds.), Aboriginal Cognition in Tertiary Education: A Framework for the 1985-87 Triennium. Woden, ACT: AGPS.Google Scholar
Leap, W.L. (1988) “Assumptions and Strategies Guiding Mathematics Problem Solving by Ute Indian Students”, In Cocking, R.R. and Mestre, J.P. (Eds.) Linguistic and Cultural Influences on Learning Mathematics. Hillsdale, New Jersey: Lawrence Erlbaum Associates.Google Scholar
Myers, D.E. and Milne, A.M. (1988) “Effects of Home Language and Primary Language on Mathematics Achievement: A Model and Results of Secondary Analysis”, In Cocking, R.R. and Mestre, J.P. (Eds.) Linguistic and Cultural Influences on Learning Mathematics. Hillsdale, New Jersey: Lawrence Erlbaum Associates.Google Scholar
Schindler, D.E. and Davison, D.M. (1985) “Language, Culture and the Mathematics Concepts of American Indian Learners”, Journal of American Indian Education, 24 (3), 27-34.Google Scholar
Scott, P.B. (1983) “Mathematics Achievement Test Scores of American Indian and Anglo Students: A Comparison”, Journal of American Indian Education, 22, 3 (May),Google Scholar
Seagrim, G. and Lendon, R. (1980) Furnishing the Mind: A Comparative Study of Cognitive Development in Central Australian Aborigines. New York: Academic Press.Google Scholar
Stigler, J.W. and Stevenson, H.W. (1987) “Mathematics Classrooms in Japan, Taiwan, and the United STates”, Child Development, 58, 1272-1285.Google Scholar
United States Senate, Special Subcommittee on Indian Education. Indian Education: A National Tragedy - a National Challenge. Washington, D.C.: U.S. Government Printing Office, 1969.Google Scholar
Watson, H. (1987) “Learning to Apply Numbers to Nature”, Educational Studies in Mathematics, 18, 339-357.Google Scholar
Wright, B.D. and Stone, M.H. (1979) Best Test Design. Chicago: MESA Press.Google Scholar