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农林院校大学物理实验第二课堂建设初探 总被引:1,自引:0,他引:1
本文针对农林院校大学物理实验课程的特点,提出并开展了多方位、多渠道、多形式的第二课堂活动内容,包括教学延伸型、兴趣提高型和科研训练型第二课堂教学活动.教学延伸型第二课堂活动内容包括开放预备实验和课外实验.兴趣提高型第二课堂活动主要有开放演示实验、指导和参与学生协会活动以及开展物理实验操作技能竞赛.科研训练型第二课堂活动由指导大学生科研训练计划(SRTP)项目和“挑战杯”大学生课外学术科技作品竞赛组成.实践表明开展第二课堂活动,学生的创新意识和操作技能得到了较大的提高. 相似文献
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第二课堂是课堂教学在时间和空间上的延伸,而第二课堂教学资源的选择直接影响教学效果的好坏.在日常教学中,教师可以从延伸课堂内容、读懂学生兴趣、激发学生动手和联系生活实际4个方面来开展初中物理第二课堂教学资源开发. 相似文献
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本文通过开展第二课堂活动的介绍和分析,提出了在工科大学物理课程教学过程中进行了教学改革的一种方法。 相似文献
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开辟物理教学第二课堂的途径李建军(山西省忻州地区农机校034000)积极开展物理教学的第二课堂活动,对于人才的培养和更好地适应社会主义市场经济需要有着重要的意义.物理教学第二课堂可从以下几个途径开展.1课外阅读报刊杂志能够及时地反映当前科技信息及最新... 相似文献
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Modeling students’ classroom behaviors can help educators and researchers better understand these behaviors, and further guide students toward well behaviors. Conformity refers to the tendency to change individual behavior to match group behavior. Through observation and experience, educators have accumulated much linguistic knowledge for describing and understanding students’ conformity behavior and influence. This paper presents a fuzzy logic approach for modeling participants’ classroom behaviors. The simulation results about two observed college classes show that the constructed fuzzy logic system is congruent with the observed participants’ classroom behaviors. Existing findings, as well as new findings, are verified through further simulation and analysis. The proposed fuzzy logic system helps educators quantitatively analyze and understand students’ conformity behavior in classroom. 相似文献
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TPACK是指教师在教学过程中将学科知识、教学知识和技术知识深度融合,从而把学科知识有效地内化为学生的知识,TPACK水平越高,表明教师利用技术手段进行教学的能力越高.基于TPACK理论的教学设计是指教师在具体的教学情境中,恰当选择教学方式、技术手段,构建以生为本的生本课堂,帮助学生理解掌握学习内容,达到提高学生学习兴趣、提升教育教学质量的目的.笔者根据TPACK理论以"探究加速度与力、质量的关系"为例进行教学设计,以期为高中物理教师的课堂教学提供借鉴. 相似文献
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除传统专业知识外,沟通、协作、创新、管理、职业道德、领导才能等能力和素质越来越成为左右学生能否在社会上取得成功的关键,国外已经将这些因素纳入到工科专业认证的指标体系中去。但如何在有限的学时内加强上述能力的培养是工程教育面临的巨大挑战。对比发达国家在工程教育方面的最新发展趋势,在实验教学中通过随机分组、教师学生共同参与的考核方式、自选课题的项目研究等方法努力将能力和素质培养分散,将它们渗透到专业知识教学的各个环节,并对在固定学时内加强学生能力、素质的锻炼与培养进行了积极的探索与实践。 相似文献
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Valente DL Plevinsky HM Franco JM Heinrichs-Graham EC Lewis DE 《The Journal of the Acoustical Society of America》2012,131(1):232-246
The potential effects of acoustical environment on speech understanding are especially important as children enter school where students' ability to hear and understand complex verbal information is critical to learning. However, this ability is compromised because of widely varied and unfavorable classroom acoustics. The extent to which unfavorable classroom acoustics affect children's performance on longer learning tasks is largely unknown as most research has focused on testing children using words, syllables, or sentences as stimuli. In the current study, a simulated classroom environment was used to measure comprehension performance of two classroom learning activities: a discussion and lecture. Comprehension performance was measured for groups of elementary-aged students in one of four environments with varied reverberation times and background noise levels. The reverberation time was either 0.6 or 1.5 s, and the signal-to-noise level was either +10 or +7 dB. Performance is compared to adult subjects as well as to sentence-recognition in the same condition. Significant differences were seen in comprehension scores as a function of age and condition; both increasing background noise and reverberation degraded performance in comprehension tasks compared to minimal differences in measures of sentence-recognition. 相似文献
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