共查询到20条相似文献,搜索用时 15 毫秒
1.
2.
3.
4.
教与学的思考和实践——关于结构化学教学方法的改革 总被引:3,自引:0,他引:3
提出了一种称之为结构化开放式的教学模式。这种模式强调在课堂教学中给学生以思维的空间和时间,注重教法促进学法共同实现价值。它的实施是通过设疑启迪以引导学生探讨发展并注意信息的反馈矫正和知识的迁移及应用提高,同时将综合评价融汇于教学过程之中。实践的效果是好的。 相似文献
5.
6.
在建立面向21世纪教学内容和课程新体系的研究探索中,教材建设是一项重要任务。教材作为课程改革和建设成果的体现,将充分反映教学改革力度、教学水平和特点。教材是教学内容的载体,是学生接触和了解知识的窗口。高质量、有水平的教材能激发学生的学习兴趣,启发学生积极思维、勇于创新。因此,好教材在传授知识,培养人才方面发挥了重要作用。《结构化学》课程是化学专业的主干课程,是从微观的角度讨论原子、分子和晶体的结构问题的课程。其知识点可以分为基本原理和结构的实验表征两大部分,后者又可根据被表征物质的形态及理论基础… 相似文献
7.
8.
9.
10.
简要介绍了我院开设"魅力化学"课程的必要性和可行性,重点阐述了该课程在课程定位、教学内容、教学方法手段和考核方式方面的教学实践,并针对目前存在的问题,提出了相应的对策,从而为该课程在其他院校的开设提供有益的借鉴。 相似文献
11.
12.
回顾了“材料化学”课程,从面向化学专业一级学科本科生的开设,经国家精品课程的前期建设,到通过评审之后的后期建设工作。实践证明,精品课程建设要坚持深化的教学改革,特别是后期建设中,要真正按照“五个一流”要求,不断提高课程水平。 相似文献
13.
14.
15.
We put forward the idea of building a molecular simulation experiment course. After two-year teaching practice, we write the experiment textbook which not only covers the classic experimental projects, but also includes the frontier hot issues, and open exploration experiment. This article summarizes the teaching requirements, basic content, assessment methods, the initial achievements made so far and the prospects for the future. 相似文献
16.
提高结构化学课程教学质量的思考与实践 总被引:1,自引:0,他引:1
对提高结构化学课程教学质量提出一些思考:①重视绪论的教学,端正学生的学习态度。②在教学中突破思维定势,诱导学生的求知欲。③设置相关课程论文,激发学生的学习主动性。④完善考核机制,客观评价学生。 相似文献
17.
18.
19.
In this paper, several methods based on electronic educational resources have been presented for teaching structural chemistry. The constructions of multimedia materials, VRML models, teaching videos and website can not only improve the classroom effect, but also provide the students with a useful post-class learning platform. Meanwhile, further teaching reforms can be made on the foundations of these techniques. 相似文献
20.
With the fast development of theoretical chemistry methodologies and computer hardware and software technologies, computational chemistry has become more and more imperative in chemical science. Accordingly, we have initiated "Computational Chemistry Experiments" course based on "Introductory Computational Chemistry" course developed in the Department of Chemistry, Tsinghua University since 2013, to provide basic training and computational chemistry practices for undergraduate students. The popular quantum chemistry software Gaussian is used as the major tool in the course. We focus on the exploratory feature of computational chemistry, creating initial structures and optimizing geometries, to provide fundamental training for students to comprehend the difference of traditional experimental chemistry and modern computational chemistry. Systematic research training is offered to develop the creative thinking capacity of students in using computational chemistry methods in chemistry education and research. 相似文献