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教育的出发点是"人",生命教育不仅要关注学生的成长,更需要关注教师的生命及其成长。思想政治理论课教师作为高校教师的一支重要力量,其生命的实然状态是我们关爱教师的基础。目前思想政治理论课教师生命的低迷由社会因素、学校因素、个人因素综合造成。关爱思想政治理论课教师生命要求教师本人树立科学的生命观,要求学校建立"以人为本"的关怀激励机制,要求构建完善的社会支持体系。 相似文献
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教育本应促进学生个性的成长,然而现行的教育过多地强调规范化、标准化,使学生丧失了自由和个性。人有认识外部世界、探寻未知领域的本性,要想发挥生命的创造性,就必须还生命以自由。创造教育必须尊重生命为基础,在教学目标、教学内容、教学方式、教学评价等方面重构教学模式。 相似文献
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教育作为最具生命性的事业,不仅关注生命的发展,更是基于生命的需求。我们必须从生命的层次去审视教学,让学生在教学中焕发生命活力,通过充满理智、挑战的历练,实现多方面的成长与发展,彰显生命的意义。 相似文献
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优化思想品德课教学,应充分体现"以学生发展为本、为学生一生奠基"的教育思想,充分关注教育本质即关注人的生命化教育,并且具备五个要素:1)优化思想品德课教学必须体现师生生命互动过程,促进双方完整生命成长;2)优化思想品德课教学应体现在预设和生成融为一体;3)知识科学性、课堂高效性是促使思想政治课更优化的途径;4)优化思想品德课教学应充分合理使用多媒体手段,实现信息技术与学科教学有机整合;5)优化思想品德课教学要求教师角色定位准确、学生参与教学的积极性充分调动。 相似文献
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思想政治课不仅是传授科学知识的载体,更是对学生进行思想教育、关注学生心灵成长的重要阵地。由于自身发展阶段的原因,中学生在成长过程中心灵成长往往会出现各种各样的问题和困难,所以思想政治课应该对其给予充分的关注。这就要求教师要充分挖掘课程资源并及时觉察学生的思想动向,实现教育与课程的有效统一。对学生的心灵我们可以从教会学生珍爱自己的生命,引导学生自觉地去追求、接近理性,培养他们感受爱、给予爱的能力三个角度来予以关注和培养。 相似文献
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大学生涯是一个人的人生最美好的时期,大学生是父母的骄傲、国家的栋梁、民族的未来。新时代对大学生思政教育工作提出了新的要求,为更好地落实立德树人的根本任务,需要创新思政育人工作,全面发挥全员育人、全方位育人、全过程育人的作用。同时,高校教师需要关注大学生的生命成长,关注大学生的生命价值。在高校中开展生命教育已刻不容缓。 相似文献
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Sheng Yan Jun Zhang Huaying Chen Gursel Alici Haiping Du Yonggang Zhu Weihua Li 《Biomicrofluidics》2014,8(6)
Microfluidic diagnostic devices often require handling particles or cells with different sizes. In this investigation, a tunable hydrophoretic device was developed which consists of a polydimethylsiloxane (PDMS) slab with hydrophoretic channel, a PDMS diaphragm with pressure channel, and a glass slide. The height of the hydrophoretic channel can be tuned simply and reliably by deforming the elastomeric diaphragm with pressure applied on the pressure channel. This operation allows the device to have a large operating range where different particles and complex biological samples can be processed. The focusing performance of this device was tested using blood cells that varied in shape and size. The hydrophoretic channel had a large cross section which enabled a throughput capability for cell focusing of ∼15 000 cells s−1, which was more than the conventional hydrophoretic focusing and dielectrophoresis (DEP)-active hydrophoretic methods. This tunable hydrophoretic focuser can potentially be integrated into advanced lab-on-a-chip bioanalysis devices. 相似文献
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Ohid Yaqub 《Research Policy》2018,47(1):169-179
Serendipity, the notion of researchers making unexpected and beneficial discoveries, has played an important role in debates about the feasibility and desirability of targeting public R&D investments. The purpose of this paper is to show that serendipity can come in different forms and come about in a variety of ways. The archives of Robert K Merton, who introduced the term to the social sciences, were used as a starting point for gathering literature and examples. I identify four types of serendipity (Walpolian, Mertonian, Bushian, Stephanian) together with four mechanisms of serendipity (Theory-led, Observer-led, Error-borne, Network-emergent). I also discuss implications of the different types and mechanisms for theory and policy. 相似文献
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本文概述了植物分类学家胡先骕在发现植物新种水杉中的贡献;他在上世纪五十年代批判李森科,倡导摩尔根遗传学说的动因,及其科学、人文背景;最后,作为新文化运动中《学衡》派主力和唯一的科学家,本文对他的新人文主义思想做一简介和评述。 相似文献
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我们学校全体师生齐心协力,锐意进取,从学生最喜欢的活动抓起,从教育最基本的积累开始,关注细节,培育做人做事的品质,努力为学生的一生精彩奠基,取得了积极的成效。 相似文献
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《国家科学评论(英文版)》2014,(3)
Network science has atracted much atention in recent years due to its interdisciplinary applications. We witnessed the revolution of network science in 1998 and 1999 started with small-world and scale-free networks having now thousands of high-proile publications, and it seems that since 2010 studies of‘network of networks'(NON), sometimes called multilayer networks or multiplex, have atracted more and more atention. he analytic framework for NON yields a novel percolation law for n interdependent networks that shows that percolation theory of single networks studied extensively in physics and mathematics in the last 50 years is a speciic limit of the rich and very diferent general case of n coupled networks. Since then, properties and dynamics of interdependent and interconnected networks have been studied extensively, and scientists are inding many interesting results and discovering many surprising phenomena. Because most natural and engineered systems are composed of multiple subsystems and layers of connectivity, it is important to consider these features in order to improve our understanding of such complex systems. Now the study of NON has become one of the important directions in network science.In this paper, we review recent studies on the new emerging area—NON. Due to the fast growth of this ield, there are many deinitions of diferent types of NON, such as interdependent networks,interconnected networks, multilayered networks, multiplex networks and many others. here exist many datasets that can be represented as NON, such as network of diferent transportation networks including light networks, railway networks and road networks, network of ecological networks including species interacting networks and food webs, network of biological networks including gene regulation network,metabolic network and protein–protein interacting network, network of social networks and so on. Among them, many interdependent networks including critical infrastructures are embedded in space, introducing spatial constraints. hus, we also review the progress on study of spatially embedded networks. As a result of spatial constraints, such interdependent networks exhibit extreme vulnerabilities compared with their non-embedded counterparts. Such studies help us to understand, realize and hopefully mitigate the increasing risk in NON. 相似文献
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