Optimizing Classroom Instruction through Self-Paced Learning PrototypeReport as inadecuate

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Journal of Technology and Science Education, v5 n3 p184-193 2015

This study investigated the learning impact of self-paced learning prototype in optimizing classroom instruction towards students' learning in Chemistry. Two sections of 64 Laboratory High School students in Chemistry were used as subjects of the study. The Quasi-Experimental and Correlation Research Design was used in the study: a pre-test was conducted, scored and analyzed which served as the basis in determining the initial learning schema of the respondents. A questionnaire was adopted to find the learning motivation of the students in science. Using Pearson-r correlation, it was found out that there is a highly significant relationship between their internal drive and their academic performance. Moreover, a post-test was conducted after self-paced learning prototype was used in the development of select topics in their curricular plot. It was found out that the students who experienced the self-paced learning prototype performed better in their academic performance as evidenced by the difference of their mean post-test results. ANCOVA results on the post-test mean scores of the respondents were utilized in establishing the causal-effect of the learning prototype to the academic performance of the students in Chemistry. A highly significant effect on their academic performance (R-square value of 70.7%) and significant interaction of the models to the experimental grouping and mental abilities of the respondents are concluded in the study.

Descriptors: High School Students, Chemistry, Pacing, Learning Strategies, Quasiexperimental Design, Correlation, Pretests Posttests, Scores, Questionnaires, Learning Motivation, Science Interests, Science Achievement, Statistical Analysis, Models, Cognitive Ability, Experimental Groups, Control Groups, Comparative Analysis, Foreign Countries

Journal of Technology and Science Education. ESEIAAT, Department of Projectes d'Enginyeria c/Colom 11, 08222 Terrassa, Spain. e-mail: info[at]jotse.org; e-mail: info[at]omniascience.com; Web site: http://www.jotse.org/index.php/jotse

Author: Bautista, Romiro G.

Source: https://eric.ed.gov/?q=a&ft=on&ff1=dtySince_1992&pg=750&id=EJ1135399

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