Background: The study determined the effect of cognitive-behavioral therapy (CBT) with music in reducing physics test anxiety among secondary school students as measured by generalized test anxiety scale. Methods: Pre-test post-test randomized control trial experimental design was adopted in this study. A total of 83 senior secondary students including male (n = 46) and female (n = 37) from sampled secondary schools in Enugu State, Nigeria, who met the inclusion criteria constituted participants for the study. A demographic questionnaire and a 48-item generalized test anxiety scale were used for data collection for the study. Subjects were randomized into treatment and control groups. The treatment group was exposed to a 12-week CBT-music program. Thereafter, the participants in the treatment group were evaluated at 3 time points. Data collected were analyzed using repeated measures analysis of variance. Results: The participants who were exposed to CBT-music intervention program significantly had lower test anxiety scores at the post-treatment than the participants in the control group. Furthermore, the test anxiety scores of the participants in the CBT-music group were significantly lower than those in the control group at the follow-up measure. Thus, the results showed a significant effect of CBT with music in reducing physics test anxiety among secondary school students. Conclusion: We concluded that CBT-music program has a significant benefit in improving the management of physics test anxiety among secondary school students.
This study examined the information and communication technology (ICT) skills relevant for effective learning possessed by undergraduate students. The study made use of descriptive survey research design. The study participants were 320 undergraduate students of university of Nigeria. The instrument used for data collection was “Relevant ICT Skills for Effective Learning among Undergraduate Students Questionnaire” (RISELUSQ). The reliability of the instrument was determined using Cronbach-Alpha method and a reliability coefficient of 0.84 was obtained. Four research questions and two hypotheses guided the study. The data collected were subjected to analysis, the mean and standard deviation were used to answer the research questions while the hypotheses were tested using t-test and ANOVA at 0.05 level of significance. The findings revealed that undergraduate students possessed the relevant ICT skills that will enhance their learning and that the ICT skills of the male students were not different from that of the female. The findings also showed that the ICT skills of undergraduate students differ based on their educational level, particularly, between the 100 level and 500 levels. Equally, the finding reveals that the students face some ICT challenges like non-functional/limited projectors in classrooms, limited e-learning facilities among others. Based on the findings, it was recommended that students be encouraged to continue to improve on their ICT skills as it will enable them strive well academically and that school authorities should ensure adequate and proper infrastructures/ICT facilities be put in place within the university environment.
Teachers’ beliefs in their ability to effectively handle the tasks that are related to their professional activity are an issue of concern for pre-service teachers. Many of them have low self-efficacy which can affect their output in future, and this can influence important academic outcomes on learners. The main purpose of this study was to factorially validate teachers’ self-efficacy scale (TSES) using pre-service teachers in public colleges of Education in Enugu State. A sample of 218 year three students in the schools of sciences and social sciences was drawn from a population of 2,127 students of public colleges of Education in Enugu State. Simple random sampling technique was used to draw two schools from the five schools in each of the colleges. Accidental sampling was used to draw the participants. The study adapted the teacher self-efficacy scale developed by Ma, Trevethan and Lu (2019). The instrument was construct validated using factor analysis while the internal consistency and stability reliability indices were estimated using Cronbach alpha method and Pearson correlation. The exploratory and confirmatory factors analyses were done using principal component matrix with Varimax rotation, while data model fit was tested using root mean square error of approximation (RMSEA) and confirmatory factor index (CFI). Statistical Package for Social Sciences (SPSS) and Analysis of a Moment Structures (AMOS) software were used to conduct the statistical analysis. The results showed that the scale was found to be valid and reliable and as well demonstrated a good model fit (RMSEA = .043, CFI = .943). The study has implication for teacher education training institutions in that the scale can be used as an effective instrument for determining the teaching self-efficacy of the pre-service teachers. Thus, it was recommended that various higher institutions for teacher education should make effective use of TSES in ascertaining the teaching self-efficacy of the pre-service teachers, especially during teaching practice exercises.
Twenty-first century classrooms have come with a lot of changes in the instructional delivery at various levels of education. However, most teachers in Nigerian still adopt the traditional method of instruction not minding the demands of the twenty-first century classrooms. As a result of this, there is dearth of empirical evidence on the impact of computerassisted instruction on the students' achievement in mathematics and physics. This study, therefore, evaluated the impact of computer-assisted instruction (CAI) on mathematics and physics students' achievement. Quasi-experimental, nonequivalent groups design was adopted for the study using a sample of 200 participants. Mathematics Achievement Test (MAT) and Physics Achievement Test (PAT) were used to collect data for the study. The internal consistency reliability indices of the MAT and PAT were estimated as 0.89 and 0.75 respectively using Kuder-Richardson formula 20. The hypotheses were tested at 0.05 levels of significance using analysis of covariance. It was found that Computer-Assisted Instruction (CAI) significantly improved mathematics and physics students' achievement. This finding has implication for Industrial Technical Education for the fact that improved achievement of students in mathematics and physics subjects at secondary education level will enable them to have interest in industrial technical education at higher education. Thus, Mathematics and Physics teachers should be trained on how to master the techniques needed for the preparation and use of the CAI package for effective teaching and learning of different concepts in Mathematics and physics.
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