| 英文摘要 |
This study aims to explore whether e-learning instruction approaches that integrate signaling design and elaborate feedback have significant effects on the self-efficacy and self-regulation of junior high school students in learning nanotechnology. A total of 95 second-year junior high school students participated in this study, and the instruments were a nanotechnology learning self-efficacy scale and a self-regulation scale. The purpose of the signaling design is to highlight important text and figures in the e-learning materials, guiding students to focus on important information and strengthening the associations among the key points. The elaborate feedback is to have the system provide elaborate feedback, informing students of the reasons for the correct answers. The experimental process is as follows. First, the pre-test of self-efficacy and self-regulation was conducted, after which the students were randomly divided into four groups, namely the control group, signaling group, elaborated feedback group, and signaling feedback group. Then, different e-learning courses were delivered. Finally, the post-test of self-efficacy and self-regulation was performed. The results of this study revealed that a curriculum design combining signals with elaborated feedback is suitable for students with high levels of self-efficacy, help-seeking of self-regulation, and self-evaluation before the courses, while a signaling design is suitable for students who were low in these three factors. According to the above results, it is suggested that instructors can supplement e-learning materials in three forms, namely signaling design, elaborated feedback, and signaling feedback, corresponding to the differences in self-efficacy and self-regulation among students. |
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