共查询到19条相似文献,搜索用时 172 毫秒
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以生物制药和食品大类等近化学类专业本科生为成员组建旨在提升其综合学习能力的团队。开展基于"班级授课""校内实践""校外实践"和"网络媒介"的团队建设,引导团队成员夯实专业基础,开拓学术视野,全方位提升学习和实践能力。在学生学习积极性提升、学习成绩提高、学术性活动的参与度和成功率提高方面获得了初步成效。 相似文献
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为迎接知识经济的挑战、加速培养新世纪的创新人才,新一轮的高考改革已全面启动。本轮改革从考试形式上看是从“3+2”转向“3+X”,实质上是从改革考试科目设置入手,大规模地对考生进行综合能力测试,满足现代社会对人才创新品质的需求,达到全面落实素质教育之目的。此类测试的共同点 相似文献
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课程思政建设是当前专业课程教学改革的重要内容。课程思政建设应以专业人才培养目标为指引,基于"以学生为中心""以产出为导向"的理念进行系统设计和实施。本文以物理化学课程教学为例,介绍如何围绕课程教学目标,对课程思政进行系统设计,深入挖掘课程育人功能,突出世界观和方法论教学,突出学生综合评价能力、学科思维能力和批判创新能力的培养,推动专业教学由知识导向型向能力和素质导向型转变。 相似文献
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以2003年高考《考试说明》(理综)在能力要求、考试范围、考试形式与试卷结构和题型示例中的变化为依据,参照2002年、2003年(春季)高考理科综合试卷评价,分析2003年夏季高考理科综合试卷的命题指导思想及试卷特点。对2003年(3 X)高考理科综合及化学单科的后期复习提出注重基础、加强学科内综合能力;突出能力,加强学科内、学科间知识透移能力;体现理论联系实际、渗透研究性学习意识的复习建议。 相似文献
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"普通化学"在石油工程专业本科教学中发挥着重要的作用。以"水溶液化学"一章为例,探讨了在非化学专业讲授该课程的方法。认为教学中首先必须注重知识体系的完整性,将基础理论讲透,并在各个章节中不断应用、强化这些重要的理论。其次,理论教学必须紧扣石油工程的专业背景,通过将工程领域的具体应用穿插到理论学习的全过程中,有助于提高学生用化学的方法分析工程问题的能力。再次,教学形式和考查方式的改革应以提高学生学习兴趣,培养分析问题、解决问题的能力为目标,采用灵活生动的教学形式和多角度的考查方式已证实是实现这一目标的有效途径。 相似文献
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理科综合贵在学科思维、方法的综合探析 总被引:2,自引:1,他引:1
理科综合考试是面向21世纪培养创造型人才的需要。从2002年起,全 国所有省市高考都将实行“3+综合”考试形式。综合理科试题不是理、化、生等科目按一定 比例的简单“拼盘”,而是以现实生活中的有关理论问题和实际问题立意命题,它要求更加 真实和更加全面的模拟现实。试题要求学生的,不单是对事物的局部或某一侧面进行描述, 而是注重对事物整体的结构、功能和作用进行多视角、全方位的认识,注重对事物变化发展 过程的分析理解。试题所涉及的知识应以多样性、复杂性和综合性等形式呈现出来;所强调 的能力,主要是运用多… 相似文献
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In order to improve the quality of teaching and cultivate chemical innovation talents in university for nationalities, in the course of organic synthetic chemistry curriculum construction, efforts were made to overcome problems such as the single teaching objective, abstract and boring teaching content, tedious and relatively dull teaching methods and low enthusiasm for students' learning, etc. According to the study rule of "before class-on class-after class", the trinity mixed teaching mode of "teaching goal-teaching means-practice examination" was constructed. Through the construction of the "teaching goal-teaching means-innovative practice" trinity mixed teaching mode, we refined teaching objectives, optimized teaching methods, implemented small classes, improved assessment methods, designed comprehensive laboratory programs, reinforced practices, and reformed the assessment measures. Discussion on teaching reform and practice of organic synthetic chemistry was carried out from multiple perspectives. Through the practice of teaching reform, the teaching effect has been improved, the enthusiasm of students to learn organic synthetic chemistry has been improved, and the expected effect of cultivating students' innovative ability has been achieved. 相似文献
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选择"硅基芳胺的合成与表征"作为综合化学实验"无水无氧合成技术"的教学内容,实验涉及特殊用途玻璃仪器的干燥与组装、空气敏感物质的操作、惰性气体保护下的化学反应、溶剂浓缩、萃取、少量液体的减压蒸馏以及结构测定等操作。深入分析了无水无氧反应装置的准备、溶剂和物料的转移、正丁基锂的取用、双排管和施伦克玻璃仪器的使用等操作细节问题,并对产物的核磁共振氢谱进行了解析。通过该实验,学生能够实践较高层次的化学实验操作,对拓宽学生专业知识面、提高学生综合实验操作技能有良好的教学效果。 相似文献
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This paper explored "the classroom debates" in "nutrition chemistry" course. After evaluating the students' expectation in participating activities, the participating degree and their gains from the activity, it was found that the performance and gains from the "classroom debate" were influenced by provincial locations, genders and majors. The results showed that "the classroom debates" need to coordinate the students' speculative thinking ability, creative thinking, team playing, medical ethics and professional education as a whole. This would help the students to form a way of critical thinking as well as the right outlook on life and value system. 相似文献
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为了进一步培养高校本科生实验创新能力,实验教学课程按部就班的"验证模式"亟待转变。如何改进和发展本科生实验课程教学模式已成为高校教师实验教学模式探索的一个重要方向。改变实验条件,辩证看待实验问题,更有利于学生观察、了解实验的本质和核心。这种兼看则明的"辨证模式"是一个很好的发展方向。我们将该种模式应用到硫酸亚铁铵的制备及其铁(Ⅲ)的限量分析实验中。通过控制合成条件可观察到三种不同颜色、光泽度、尺寸的晶体,这些实验结果的差异反过来激发了学生的兴趣和对实验条件与结果的深入讨论。实验课堂效果评价表明:这种教学模式有利于促进学生进行自主探究性学习,培养其辩证性的实验思维,进而增强学生的实践创新能力,提高学生的综合素质。同时,这种模式也可以适当地扩展到其他实验教学实践中。 相似文献
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When the course was online this semester because of the outbreak of COVID-19, we explored a way to help students thinking as a chemist via home lab. We focused on the student-centered teaching method instead of the teacher-centered one, which was named as "I-Think-Talk-Do it myself" and "You talk-I do", respectively. It is demonstrated that home lab is an efficient way to raise students' interest in chemistry and improve their research abilities, including the abilities to summarize literatures, design and optimize an experiment, observe, identify and solve problems. The teaching results and the feedback from students were also discussed. 相似文献