共查询到18条相似文献,搜索用时 688 毫秒
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高分子科学是蓬勃发展的高分子材料工业的理论基础,对其深刻理解、灵活运用是进行高分子工业实践的前提条件,然而当前高分子专业学生中存在对高分子科学不感兴趣或者"偏见"现象,影响了高分子科学的教学效果和后续实践,因此,开展高分子科学教学研究,对培养具备深厚高分子科学理论与应用兴趣的专门人才具有重要意义。作者阐述了为激发学生长久、自主学习兴趣进行的高分子科学第一课教学改进体会,即强调高分子材料的价值宣讲、突出高分子知识的应用特性和演义高分子科学丰富历史,结合知识性、故事性和实际性多维度教学,引导同学们走近高分子、走进高分子、爱上高分子。 相似文献
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《高分子材料》课程是高分子材料与工程专业的一门必修课,是学生了解和掌握高分子材料专业知识的基础课程。本文通过对高分子材料与工程专业的《高分子材料》课程教学方式和考核方式的改革,探索了在课程中引入材料重要性讨论、市场调研、大作业演讲、企业和行业协会人员进教室等方式提高学生服务地方能力。在加入这些实践元素的同时,探索了对考核方式的改进和完善,激发了学生的学习兴趣,提高了学习效果。这种教学模式值得在本专业相似的课程中推广。 相似文献
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《高分子化学实验》课程是高等院校高分子专业本科生学习高分子科学的关键实践环节。实验课内容需与高分子化学课程中理论知识紧密联系的要求决定了实验课内容的基础性和规范性。在规定的教学内容内,培养学生动手能力,激发学生兴趣、培养学生创新思维是本实验课程教学的核心目标。本教学改革通过:(1)在既定教学内容上调节实验变量、增加实验结果未知性;(2)增加实验过程中的教师与学生、学生与学生的交流强度;(3)增加课程的平时成绩权重的成绩评定方法等改善教学效果,并通过问卷调查的形式分析和评价交互式教学效果。本文的措施和结论为高分子化学实验课程的教学提供了有益的参考价值。 相似文献
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本文以江汉大学高分子材料与工程专业本科教学为例,提出以大型仪器为依托构建本科生科研素质培养的新模式。借助于大型仪器在本科生科研素质培养中的优势作用,采用建立在线资料库、大型仪器模拟仿真、大型仪器操作实训、组建学生科研团队和建立多元化考核评价体系等措施,进一步激发学生的学习兴趣,培养学生的自主学习能力、独立思考能力、团队协作能力和创新能力。通过转变学习方式和方法,提升学生的学习和科学研究等方面的综合能力,为高素质、有特色的应用型技术人才的培养提供一定的参考。 相似文献
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浙江大学《高分子材料》课程针对高分子专业本科生开设,教学内容包含了塑料、橡胶、纤维等主要的传统高分子材料以及聚合物共混材料的相关内容。该课程的特点是知识点多而分散、知识面宽,而内容相对陈旧。采用讨论与互动式教学,将老师讲授与学生讲授相结合,由学生组成学习小组,具体分配到某一种高分子材料的教学内容。学生课后收集和整理相关资料,制作幻灯片并在课堂上完成讲授以及问题解答。通过课程结束后的调查问卷收集学生反馈,说明该方法能够较好地完成教学内容,极大地调动学生的积极性,提高了学生参与课程讨论和学习的热情。 相似文献
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《聚合物合成工艺学》是高分子本科专业开设的一门专业必修课,对于培养学生运用理论知识解决实际工业生产问题的兴趣和能力,以及利用所学知识进行创新创业发展都具有十分重要的作用。由于当前聚合物材料的发展十分迅速,聚合物合成工艺的发展也日新月异,因此根据聚合物合成工艺学的课程特点,结合课堂教学的经验,作者对如何提高学生兴趣、提高教学质量及培养学生的工程实践能力,在教学内容、教学方法等方面提出不同的方法和改革。 相似文献
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Advances in science and technology are now at the heart of the global economy, but the number of students earning degrees
in the sciences, technology, engineering, and math (STEM) fields has stalled. According to the National Association for Colleges
and Employers (NACE), programs have been initiated nationwide to nurture interest in the sciences, including research competitions,
co-ops and internships, and K-12 STEM education. Senior thermal analysis scientists are not only researchers, they are role
models, mentors and teachers intimately involved in the recruitment and training of young scientists. The authors present
guidelines for thermal analysis research project planning for high school students, undergraduate students and master’s and
doctoral candidates. Project planning includes developmentally appropriate techniques, methods, instruments, scope and significance.
Case studies illustrate examples of short-term, concrete materials analysis projects tailored to younger student researchers,
as well as master’s level projects making significant contributions to the state of the science and innovative doctoral research.
In addition to designing projects for students at all levels, senior thermal analysis scientists can use specific teaching
and training techniques to help young scientists develop their abilities in the lab and at the podium. 相似文献
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Tian Li Pan Zhang Lei Bian Ling Guan Xuanfeng Xu Qihan Zhang Jieyu Wang Yingxia Wang 《大学化学》1986,36(1):2012048-0
The development of computer technology has promoted the application of computational chemistry teaching in undergraduate Laboratory. We have introduced computation module into our "organic chemistry laboratory", which, as one of the core courses, is set up for fresh undergraduate students. The calculation is carried out by Gaussian and Gauss View, and the results are used in understanding the experimental phenomena. Canvas teaching platform was applied to organize the materials, including videos, handouts, quiz, homework and discussion, and a flipping teaching type was adopted to improve the study efficiency. A course survey showed that the combination of the computation with lab work are very welcome by the students and obtained a satisfactory result. 相似文献
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基于科学技术的发展、时代的要求,教育改革势在必行,科教融合是发展的新趋势。《高分子材料综合实验》是高分子材料与工程专业的一门必修课,在学生从学校到工作岗位顺利过渡中起着重要的桥梁作用。科教融合在该门课的教学中显得尤为重要,能使学生综合能力、科学素养得到有效提升。以花生壳吸附剂的制备及其应用为例,介绍了科教融合的教学方法、实施步骤及教学成效,涉及理论知识、实践操作、数据处理、现代仪器使用、谱图解析、论文撰写等多门学科知识,实现了跨界知识体系的交叉融合。科教融合不仅提高学生的兴趣性、积极主动性、综合能力、创新能力、分析解决问题能力,还可提高学生的专业认同感、成就感、社会责任感,树立正确的环保意识,成为推进生态文明建设的中坚力量,有助培养成具有良好科学素养的新工科复合型创新人才。 相似文献
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Rebecca Evans Madison Perchik Caroline Magee Mauricio Cafiero 《International journal of quantum chemistry》2020,120(20):e26354
The undergraduate computational chemistry research group headed by Mauricio Cafiero at Rhodes College has a history of including, promoting, and supporting women in this predominantly male field. Alums of this research group from 2004 to 2019 include nine M.Ds, two science researchers, two Ph.D.s, one secondary teacher, two pharmacists, a physical therapist, two nurses, six current medical school students, and five current science graduate students. They have produced 18 peer-reviewed publications with female undergraduate first authors and over 100 conference presentations, including 9 international conference presentations. While Professor Cafiero does all he can to support these students, he attributes the continuous success of the group in recruiting, retaining, and supporting these women to the students themselves. The students' success and visibility on campus helps to recruit new students. The heavy presence of women in this group provides a strong support system for women who may otherwise feel isolated in a male-dominated field; and these support groups provide models and support for women to overcome common obstacles that women in science face. We will profile three recent graduates who will discuss how the above points affected them during their time in the research group and discuss their experience in the context of some literature on women in Science, Technology, Engineering and Mathematics. 相似文献
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