The purpose of this study is to examine the relationships between ninth grade students’ metacognitive self-regulation skills and physics self-efficacy beliefs and their critical thinking. To this end, 162 students attending the ninth grade participated in the study. Critical thinking scale, metacognitive self-regulation scale and physics self-efficacy scale were used as data collection tools in the study. Data were analyzed by descriptive statistics, pearson product moment correlation analysis, and stepwise multiple regression analysis. According to descriptive analysis results the students’ critical thinking, metacognitive self-regulation and physics self-efficacy beliefs were high. Moreover, stepwise multiple regression analysis revealed that the students’ metacognitive self-regulation and physics self-efficacy belief scores were significant predictors of their critical thinking scores, explaining 55 % of the variance of critical thinking scores. In addition, it was also determined that the main variable that best explained critical thinking was metacognitive self-regulation, explaining 53 % of variance.
The aim of this research is to examine the effects of multiple intelligences based instruction on the 9th grade students’ achievements and attitude towards the Force and Motion topics in physics. The participants of this research are composed of randomly selected 95 ninth graders, who were divided into two experimental and two control classes. The experimental groups were exposed to lesson plans based on the multiple intelligences for six weeks. In the control groups, traditional instruction was conducted. Force and Motion Achievement Test, Force and Motion Attitude Scale, Revised Student Multiple Intelligences Profile Questionnaire and Students’ Views about MI-based instruction Questionnaire were used as research instruments in this research. As a result of this research, it was found that multiple intelligences based instruction had a significant effect on students’ achievements in the Force and Motion topics. However, multiple intelligences based instruction had any significant effect on students’ attitudes towards force and motion topics. In addition, a large majority of the students in the experimental group found the courses based on multiple intelligences more enjoyable and found more instructive. Keywords: force and motion, multiple intelligences, physics education.
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