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本文提出的延展式教学方法主要包括两个方面:一是针对教材中的某些知识点查阅国外相关的文献资料,掌握这些知识点的具体实例,使课本知识延伸和拓展到未来工作可能面临的问题中,同时增强英语文献的阅读能力,做到一举两得;二是使用基于项目的学习方法 PBL(Project-Based Learning)让学生以小组形式做一个综合性项目,培养学生归纳总结知识的能力。  相似文献
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本文主要阐述电子技术基础课堂与实验教学方法的讨论,该课程是一门理论性和实践性都较强的课程,应改变传统的传授知识为本位的教学思想,把实践能力的培养放在首位。笔者结合本学校的特点,更新教学方法和手段,培养学生综合素质,提高实践动手能力。  相似文献
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忻歌  宋娴  吴为昊 《科普研究》2011,6(1):83-88
本文通过上海科技馆儿童科学教育展区——"彩虹儿童乐园"项目的策划、设计案例,从儿童心理学、教育学在儿童科学展示教育领域的应用、针对儿童的特点创新性应用展示技术、环境氛围的营造和图案化信息的传达、安全要素的综合控制等多个角度全面地探讨了如何针对3~10岁儿童的心理特点和行为模式开展有效的科学展示教育。  相似文献
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“翻转课堂”对学生的学习过程进行了重构,其特点是信息传递是学生在课前进行的,而吸收内化是在课堂上通过互动来完成的。以“数控系统”课程为例,针对毕业班学生经常因找工作而缺课的特点,提出翻转课堂在毕业班理实一体化课程中的应用策略。  相似文献
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Education is one of the most important elements in our lives, as it provides a direct gain in knowledge. Thus, in order to provide better academic achievement, more and more instructors are adapting collaborative learning to their classes. However, two major problems lurk behind collaborative learning. First, it is difficult to apply collaborative learning because students tend to engage passively with traditional lectures. As a result, interactive technologies such as clickers have been applied to increase interactive learning and raise the rate of interaction. Nevertheless, these interactive technologies still have some limitations, such as limited mobility, high costs, setup issues, technical difficulties, and little support of higher-order thinking skills. Second, recently there has been an increasing number of EMI (English as Medium of Instruction) courses added to university course offerings in countries where English is not the first language. The goal of these courses is to support university internationalization and address the global status of English. However, it is even harder to achieve in-class interaction in large EMI lecture courses. In addition, some studies argue that EMI courses might affect the overall learning of course content because of students’ poor lecture comprehension and passive engagement in class.In order to address the limitations of interactive technologies, encourage more collaborative learning, facilitate greater in-class interaction in large lecture courses, and resolve students’ poor lecture comprehension in EMI courses, the author introduces MEMIS (Mobile-Supported English-Medium Instruction System), which includes both a T&S (Teachers & Students) mobile app and an EMI pedagogical method. The author first provides detailed implementation and all the features of the T&S mobile app, which improves students’ perceptions of classroom participation and in-class interaction. Then the author explains how she develops her EMI pedagogy such that it utilizes the features of the T&S mobile app to: 1) increase students’ overall learning in her EMI course, 2) develop students’ construction of knowledge and higher-order thinking, and 3) achieve all six cognitive processes from Bloom’s revised taxonomy. The author adapts a quasi-experimental design, statistically analyzes the effectiveness of both exam scores and final grades between a control group and an experimental group, and then asks students to evaluate their experiences and provide feedback about MEMIS. Based on both statistical results and students’ overall feedback, the author confirms that MEMIS is an effective approach that improves lecture comprehension, encourages more class engagement, promotes collaborative learning, and achieves better learning outcomes.  相似文献
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