| dc.description.abstract |
This study examined the effect of frequent laboratory practical activities on students’
acquisition of science process skills in selected topics in optics and also explored
students’ perceptions of these activities. The research adopted an action research design
and involved 53 second-year physics students from Begoro Presbyterian Senior High
School in the Eastern Region of Ghana. Data for the study were collected through
personal observations, a checklist, and a closed-ended questionnaire. The study was
carried out in three phases. In the first phase, a pre-intervention exercise was
administered to determine the students’ initial level of science process skills and to
prepare them for the intervention activities. The second phase consisted of four weeks
of weekly laboratory practical exercises, after which a post-test was conducted to assess
the effect of the intervention on students’ acquisition of science process skills. In the
third phase, questionnaires were administered to gather students’ views on the frequent
laboratory practical activities. Both qualitative and quantitative data were analysed
using the Statistical Package for the Social Sciences (SPSS) and Microsoft Excel 2010.
Pearson’s correlation analysis was employed to examine the relationship between
students’ pre-intervention and post-intervention performance. The results revealed a
very strong positive correlation (r = 0.987), indicating a substantial improvement in
students’ science process skills following consistent participation in laboratory
practical activities. The findings further showed that frequent practical activities
enhanced students’ ability to manipulate laboratory equipment, follow correct
procedures, label diagrams appropriately, read measuring instruments accurately, take
precise measurements, plot graphs, analyse experimental data, and interpret results.
These skills improved progressively as students continued to engage in practical
activities. Students’ perceptions of the frequent laboratory practical activities were
generally positive, with mean scores exceeding the 2.5 benchmark across all
questionnaire items. Students indicated that regular hands-on activities improved their
observational accuracy, experimental design skills, inferential reasoning, and ability to
communicate scientific findings effectively. The study therefore concludes that
frequent laboratory practical activities significantly enhance students’ acquisition of
science process skills and can contribute to improved academic performance. Based on
these findings, it is recommended that physics teachers consistently incorporate
laboratory practical activities into their teaching to promote the development of
essential science process skills. |
en_US |