晶体学教学

IF 2 2区 化学 Q2 CRYSTALLOGRAPHY
P. Bombicz
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引用次数: 0

摘要

柏拉图,苏格拉底的学生和亚里士多德的老师,赞同教育的基本任务是帮助学生重视理性和理性。是否有适当的标准来评价教育工作和实践?总体目标是增进理解,生产知识和知识渊博的学生。教材可以促进学习,可以帮助学生评价、组织、整合和检索信息。《晶体学评论》第27卷第3期发表了两篇文章,一篇专题文章和一篇教程文章,介绍了两位著名科学家和著名教育家的晶体学教学:教授John Helliwell和Gervais Chapuis。John Helliwell提出了一个问题“我们应该如何教授晶体学?”, Gervais Chapius介绍了晶体的衍射。来自英国曼彻斯特大学化学系的John Helliwell准备了一份“教学书籍内容页回顾”,对大约30本晶体学教科书进行了筛选。对章节顺序的调查表明,在大多数书中,经典晶体学先于衍射的描述。然而,他的观点是,对于那些把晶体学当作一种服务的学生来说,一本教材应该从衍射开始,然后再解释经典晶体学的结果。无论如何,不能以一种独特的方式来解释晶体学,因为它取决于学生的科学学科(物理、化学或生物),取决于教育水平(本科、研究生或更高),以及对晶体学的期望理解深度。来自École瑞士洛桑理工学院的Gervais Chapuis在他的文章“晶体结构衍射的基本处理”中首先提出了晶体结构的周期性,然后是晶体学参考框架,然后是衍射定律的建模。在这里,他首先介绍了劳厄方程以及用埃瓦尔德球对其的解释,然后是对布拉格方程的解释。通过这种方法,布拉格定律可以直接用互易的单位胞常数来重新表述,从而避免了先验地引入晶格平面概念的必要性。这篇文章是根据2021年意大利晶体学协会暑期学校关于晶体学基础的讲座改编的。印度阿姆里塔普里和Matrusri工程学院物理系的S. R. Dhanya、Jyotirmayee Satapathy和Pavan Kumar在“不同掺杂铋铁体多铁体的结构和磁性回顾”中完成了这一课题。铋铁氧体是近年来发现的一种多铁性材料,其磁性响应随粒径的减小而增大,在室温以上具有反铁磁性有序。兴奋剂与
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Teaching crystallography
Plato, the student of Socrates and the teacher of Aristotle, endorsed that the fundamental task of education is that of helping students to value reason and to be reasonable. Are there proper criteria for evaluating educational efforts and practices? The overall aim is the enhancement of understanding, production of knowledge and of knowledgeable students. Teaching materials may facilitate learning, may help students to evaluate, organize, integrate and retrieve information. Issue 3 of Volume 27 of Crystallography Reviews presents two articles, a topical and a tutorial one, on teaching crystallography from two eminent scientists and appreciated educators: Professors John Helliwell and Gervais Chapuis. While John Helliwell asks the question ‘How should we teach crystallography?’, Gervais Chapius offers an introduction to the diffraction of crystals. John Helliwell from the Department of Chemistry, University of Manchester, UK prepared ‘A review of teaching books contents pages’ screening around 30 crystallography textbooks. The survey of the sequence of chapters showed that in the majority of books the classical crystallography preceded the description of diffraction. However, his point is that a coursebook for those students who treat crystallography as a service should start with diffraction, the classical crystallography can follow explaining the results. Anyhow, a stand cannot be made for a unique way of explaining crystallography, since it depends on the science subject that a student comes from (physics, chemistry or biology), on the level of education (undergraduate, graduate or later), and on the desired depth of understanding of crystallography. Gervais Chapuis from École Polytechnique Fédérale de Lausanne, Switzerland, in his article ‘An elementary treatment on the diffraction of crystalline structures’ presents first the periodic nature of crystalline structures, followed by the crystallographic reference frames, and then by modelling the diffraction laws. Here, he introduces the Laue equation and its interpretation by the Ewald sphere as a start, then comes the interpretation of the Bragg equation. With this approach, Bragg’s law can be reformulated directly in terms of the reciprocal unit cell constants avoiding thus the necessity to introduce a priori the notion of lattice planes. The article is based on the lecture given during the summer school of the Italian Association of Crystallography on the Fundamentals of Crystallography in 2021. ‘A review on the structural and magnetic properties of differently doped bismuthferritemultiferroics’ completes this issue by S. R. Dhanya, Jyotirmayee Satapathy and Pavan Kumar from the Department of Physics, Amrita Vishwa Vidyapeetham, Amritapuri and Matrusri EngineeringCollege, Hyderabad, India. Bismuth ferrite is one among the recently identified multiferroic materials whose magnetic response increases with decreasing particle size and possesses antiferromagnetic ordering above room temperature. Doping with
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来源期刊
Crystallography Reviews
Crystallography Reviews CRYSTALLOGRAPHY-
CiteScore
3.70
自引率
0.00%
发文量
16
审稿时长
>12 weeks
期刊介绍: Crystallography Reviews publishes English language reviews on topics in crystallography and crystal growth, covering all theoretical and applied aspects of biological, chemical, industrial, mineralogical and physical crystallography. The intended readership is the crystallographic community at large, as well as scientists working in related fields of interest. It is hoped that the articles will be accessible to all these, and not just specialists in each topic. Full reviews are typically 20 to 80 journal pages long with hundreds of references and the journal also welcomes shorter topical, book, historical, evaluation, biographical, data and key issues reviews.
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