The study was designed to investigate the effects of laboratory method on students’ acquisition of science process skills in senior secondary school Chemistry. To guide this study, three hypotheses were raised and tested. The design of the study was a non-randomised pre-test, post-test control group quasi-experimental design. Six secondary schools were selected using a stratified random sampling technique. Three schools were used as the experimental group and the other three as the control group. One hundred and ninety-eight (198) students of six (6) intact classes made up of the sample for the study. The instruments for the study consisted of Chemistry Practical Ability Test (CPAT) and Chemistry Process Skills Rating Scale (CPSRS). The major findings of the study are: the laboratory method enhances students’ acquisition of science process skills in both quantitative and qualitative analyses more than the lecture method, the laboratory method contributed about 74% to students’ acquisition of science process skills and students acquire more science process skills in quantitative analysis than in qualitative analysis. Based on the findings, some recommendations were made among which are that the laboratory method should be used for teaching practical aspects of Chemistry always; Chemistry practical work should commence from senior secondary school one with separate periods per week instead of keeping students till senior secondary school three before such exposure. The conclusion of the study is that the laboratory method enhances students’ acquisition of science process skills in both quantitative and qualitative analyses rather than lectures. The following recommendations were made: the use of laboratory method should be employed in teaching practical aspects of Chemistry always, and a separate period per week should be given for laboratory activities with reference to the scheme of work among others.

 

Article visualizations:

science process skills, quantitative analysis, qualitative analysis, acquisition, laboratory method

Abamba, E. I. (2012). Content Coverage and Students Achievement in Secondary School Physics: The Delta State Example of Nigeria. Asia-Pacific Forum on Science Learning and Teaching. 13(1). Article 14

Abdullahi, A. (2000). Science teaching in Nigeria, Ilorin: Atoto Press Limited

Ackerman, E. S. (2005). Volumetric analysis of Martian Rampart crater lunar planetary science, XXXVI.

Adedibu, A. A. and Olayiwola, M. O. (2007). Towards ensuring adequate science teachers’ preparation for sustainable development: An analytical review. STAN, 227 – 229.

Ajayalemi, D. (1991). Science and Technology Education in Africa: focus on seven sub-Saharan countries. Lagos: University Press.

Ajaja, O. P. (2009). Teaching methods across disciplines, Ibadan, Bomn

Akinboola, A. O. and Afolabi F. (2010). Analysis of science process skills in West Africa Senior Secondary School physics practical examination in Nigeria. Bulgarian Journal of Science and Education policy, 4(1)

Alam, G. M., Oke, O. K. and Orimogunge, T. (2010). Volumetric analysis and chemistry students’ performance: combined influence of study habit, physiological and psychological factors. Scientific Research and Essay, 5(11): 1325 – 1332, 4 June 2010. http://www.academicjournal.org/SRE.Academic Journals 2010.

Ergul R., Simekli, Y., Calis, S. Ozdilek. Z., Gecmencelebi S., and Sanli M. (2011). Effect of inquiry-based science teaching on elementary school student’s science process skills and science attitudes. Bulgarian Journal of science and Education policy. 5(1).

Fang, X. and Chen, Z. (2010). A study on current status of teaching and learning science process skills in Authui province secondary schools. China: Hangzhon.

Kempa, R. (1986). Assessment in science. New York: Cambridge University Press.

Krieger, C. R. (1997). Relationships among process skill knowledge acquisition and gender in microcomputer-based chemistry laboratories. Dissertation abstract internationals, 58(05).

Ibraheem, T. L. (2004). An investigation into the usefulness of research results among secondary school science teachers. Proceedings of the 45th Annual Conference by STAN, 15-18.

Ifeakor, A. C. (2006). The status of resources for effective teaching of Chemistry in Nigerian schools. Edited by Nzewu, U. Resources of Science Technology, Mathematics Education. Heinemann Education Book Nigeria, pp. 173 – 77.

Inomiesa, E. A. (2010). Teaching of science in Nigerian Secondary Schools: the beginning, the present and the future. 20th in the series of inaugural lectures of Delta State University, Abraka, Nigeria University Press.

Lisney, T. J., Bernnett, M. B. and Collin, S. P. (2007). Volumetric analysis of sensory brain areas indicates onto genetic shift in the relative importance of sensory systems in elasmobranches. Paper No. 14, 7-15.

Mallinson, G. and Mallinson, T. (1998). Science content: what’s worth knowing? From world wide web. http://www.monroe2boces.org/share/instructsciencek6/content. htm.

Meltem, D. and Oguz, O. (2010). The effects of scientific process Skills-based science teaching on students’ attitude towards science. U.S.A.: US-China Education Review, 7(3), paper 64.

Mulenwa, C. T. (2006). The challenge of providing quality school science in Africa. 43rd Annual conference proceedings of STAN on Science, Technology and Mathematics Education for Sustainable Development in Africa. 22-29.

Njoku, Z. C. (2003). Development and preliminary validation of a scale for the assessment of Students’ interest in O’level practical Chemistry activities Journal of the STAN, 38 (1&2).

Nwagbo, C. R. (2002). Attainment of professionalism in science education: Competences and skills needed by Biology teachers. Proceedings of the 43rd Annual Conference by STAN, 183-188.

Njelita, C. B. (2008). Enhancing science process skills acquisition in volumetric analysis using cooperative learning strategy. Paper presented at the Workshop of STAN Akwa zone, 26th – 28th September.

National Research Council (2005). How students learn: History, Mathematics, and Science in the classroom. Washington D.C.: The National Academic Press.

Oloruntegbe, K. O., Orole, O. O. and Oduntuyi, M. O. (2005). Professionalism and performance of Chemistry teachers: focus on formulated behavioural, objectives. Proceedings of the 46th Annual Conference by STAN, 213 – 216.

Orimogunje T., Oluruntegbe K. O. and Gazi M. A. (2010). Volumetric analysis in senior secondary school. A case study in Ondo State. Science and Technical Educational Development.

Valentino, C. (2000). Developing Science Skills. Retrieved Aug., 26, 2014, from http://www.eduplace.com/science/profdev/article/valentino2.html.

West African Examination Council, (2006). Chief Examiner’s reports. May/June 2006 Lagos: Amao Press Ltd, pp.120-125

West African Examination Council, (2007). Chief Examiner’s reports. May/June 2007 Lagos: Amao Press Ltd, pp.192-216