Practical Activity in Ethiopian Secondary Physical Sciences: Implications for Policy and Practice of the Match between the Intended and Implemented Curriculum

  • Samuel A. Bekalo
  • Alasdair G. Welford

Abstract

This paper reports on a study which examined the secondary physical sciences curriculum in Ethiopia with a particular focus on practical
work. It describes the intention and realization of the science curriculum in terms of that which is .intended by policy makers and curriculum developers
and that which is implemented by classroom science teachers. Ethiopia 's new Education and Training Policy and Sector Strategy (EMPOA, 1944a
and b) advocates - as did its predecessors - that science be taught emphasizing a problem-solving, practical approach in the classroom. The
main methods used by the study to gather data were: analysis of documents - policy statements, textbooks, examination papers; classroom observation;
and analysis of 80 science lessons in four sample schools, enriched through interviews with a range of those involved - from policy makers to students in
schools. The study revealed that the link between policy and practice in secondary science with regard to practical work was always tenuous. Broad
and specific curriculum objectives as well as the teaching and learning activities prescribed in the textbooks were neither internally coherent nor
congruent with the stated policy objectives. Furthermore, assessment practice and school practice did not match intentions. As a consequence, '
Ethiopian secondary students do not receive the practical experiences specified in the official science curriculum.

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References

Allsop, T. (1991). Practical science in Low-income Countries. In Woolnough, B.E. (Ed.) 1 Practical Science. Milton Keynes: Open University Press. ~
American Association for the Advancement of Science (1989). Project 2061: Science for all Americans: Literacy Goals in Science and Mathematics and Technology.
Washington D.C: AAAS.
__ (1993). Benchmarks for Science Literacy. New York: Oxford University Press.
Archenold, W.F., Bell., J., Donelly, J.F. , Johnson, S. and Welford, A.G. (1988). Science at Age 15: A Review of APU Survey Findings 1980-84. London: HMSO.
Bekalo, SA (1977). Factors Influencing the Place and Development of Practical Work in Secondary Science: the Case of Ethiopia. Unpublished PhD thesis, School of
Education, university of Leeds.
__ and Welford, A.G. (1999). Secondary Pre-service Teacher Education in Ethiopia: Its Impact on Teachers' Competence and Confidence to Teach Practical Work in
Science, International Journal of Science Education, 21 , 12, 1293-1310.
Bekele, A, Tassew, A and Nega, M. (1990). Ethiopian Chemistry Teachers Source Book Vol. 1: Models and Materials. Addis Ababa, Ethiopia: Ministry of Education,
Department of Teachers' Education.
Benschop, M., Stoll, C. and Feuter, L. de (1996). The Composition of the Namibian Science and Mathermatics Teaching Force: Baseline Study. Windhoek,
Namibia Instant Project: Ministry of Basic Education and Culture.
Black, P. (1993). The Purposes of Science Education. In: Hull, R. (Ed.) ASE Secondary Science Teachers' Handbook. London: Simon & Schuster.
White, R.T. (1995). The Link between the Laboratory and Learning, International Journal of Science Education, 18,7,761-774.
Yager, R.E. (1984). The Major Crisis in Science Education, School of Science and Mathematics, 84, 3, 189-198.
Yakubu, J.M. (1992). Indigenising the Science Curriculum in Ghana Through a Science Ghanaian Society Project). SRI Vol 3. •
__ (1994). Integration of Indigenous thought and Practice with Science and Technology: a Case Study of Ghana, International Journal of Science Education, 16, 3, 343-360.
ZIM-SCI (1987). Zimbabwe Secondary School Science Programme: Study Guide Years 1. Ministry of Education and University of Zimbabwe: Longman Zimbabwe (pvt). Ltd.
Published
2000-06-09