Computer Graphics In Chemical Education






Computers in Chemical Education and Research

Author : E. Ludena

Publisher : Springer Science & Business Media

Page : 475 pages

File Size : 24,77 MB

Release : 2013-03-09

Category : Science

ISBN : 1468424068

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Book Description

The impact of computers on all rea1ms of Chemistry has been one of the most important factors in the deve10pment of this science during the last years. In recognition of this fact, in 1971, the "First International Conference on Computers in Chemi ca1 Research and Education", was held at DeKa1b, I11inois, USA. A second Conference took p1ace in Ljub1jana, Yugos1avia in 1973 and this third Conference in Caracas, Venezuela, in 1976. The aim of these conferences was to provide a high level forum for the 1eading researchers to exchange information at the frontiers of present day computer app1ications to the different fie1ds of Chemistry. The present "Third International Conference on Computers in Chemica1 Research, Education and Techno10gy", whose proceedings are pub1ished in the present vo1ume, was conceived, by means of aseries of invited 1ectures, as a survey of the present-date state of the art in some of the most relevant areas of computer app1ications in Chemistry.



Interactive Computer Graphics in Science Teaching

Author : John McKenzie

Publisher :

Page : 256 pages

File Size : 20,9 MB

Release : 1978

Category : Computer graphics

ISBN :

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Book Description

This book is an attempt to provide a useful guide for anyone interested in using computer assisted learning as a technique, in particular those considering whether to use interactive graphics to augment their own teaching.



Chemistry Education in the ICT Age

Author : Minu Gupta Bhowon

Publisher : Springer Science & Business Media

Page : 437 pages

File Size : 11,57 MB

Release : 2009-07-21

Category : Science

ISBN : 1402097328

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Book Description

th th The 20 International Conference on Chemical Education (20 ICCE), which had rd th “Chemistry in the ICT Age” as the theme, was held from 3 to 8 August 2008 at Le Méridien Hotel, Pointe aux Piments, in Mauritius. With more than 200 participants from 40 countries, the conference featured 140 oral and 50 poster presentations. th Participants of the 20 ICCE were invited to submit full papers and the latter were subjected to peer review. The selected accepted papers are collected in this book of proceedings. This book of proceedings encloses 39 presentations covering topics ranging from fundamental to applied chemistry, such as Arts and Chemistry Education, Biochemistry and Biotechnology, Chemical Education for Development, Chemistry at Secondary Level, Chemistry at Tertiary Level, Chemistry Teacher Education, Chemistry and Society, Chemistry Olympiad, Context Oriented Chemistry, ICT and Chemistry Education, Green Chemistry, Micro Scale Chemistry, Modern Technologies in Chemistry Education, Network for Chemistry and Chemical Engineering Education, Public Understanding of Chemistry, Research in Chemistry Education and Science Education at Elementary Level. We would like to thank those who submitted the full papers and the reviewers for their timely help in assessing the papers for publication. th We would also like to pay a special tribute to all the sponsors of the 20 ICCE and, in particular, the Tertiary Education Commission (http://tec.intnet.mu/) and the Organisation for the Prohibition of Chemical Weapons (http://www.opcw.org/) for kindly agreeing to fund the publication of these proceedings.





Computer Aids to Chemistry

Author : Gaston Vernin

Publisher : Ellis Horwood

Page : 424 pages

File Size : 15,39 MB

Release : 1986

Category : Science

ISBN :

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Computer Graphics in Biology

Author : Robert Ransom

Publisher : Springer Science & Business Media

Page : 223 pages

File Size : 22,45 MB

Release : 2012-12-06

Category : Science

ISBN : 1468414909

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Book Description

Computer graphics is being used to an increasing extent in the biological disciplines. As hardware costs drop and technological developments intro duce new graphics possibilities, researchers and teachers alike are becoming aware of the value of visual display methods. In this book we introduce the basics of computer graphics from the standpoints of both hardware and software, and review the main areas within biology to which computer graphics have been applied. The com puter graphics literature is vast, and we have not been able to give a full course on graphics techniques in these pages. We have instead tried to give a fairly balanced account of the use of graphics in biology, suitable for the reader with some elementary grounding in computer programming. We have included extensive references both to material cited in the text and to other relevant publications. One of the factors that has fuelled the increase in graphics use is the ease with which the more simple graphics techniques may be implemented on microcomputers. We hav.e, therefore, paid attention to microcomputer graphics as well as graphics techniques suitable for larger machines. Our examples range from simple two-dimensional graph plots to highly complex surface representations of molecules that require sophisticated graphics devices and mainframe computers on which to run. The book is separated into two logical sections. The first part con centrates on general graphics techniques, giving an overview from which the reader will be able to refer to other more specialised texts as required.



Pedagogic Roles of Animations and Simulations in Chemistry Courses

Author : Jerry P. Suits

Publisher : ACS Symposium

Page : 0 pages

File Size : 48,20 MB

Release : 2014-03-27

Category : Science

ISBN : 9780841228269

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Book Description

Chemistry can be a very difficult topic for students to understand, in part because it requires students to think abstractly about the behaviors and interactions of atoms, molecules, and ions. Visualizations in chemistry can help to make chemistry at the particulate level less abstract because students can actually "see" these particles, and dynamic visualizations can help students understand how these particles interact and change over time as a reaction occurs. The chapters in this book are divided into four categories: Theoretical aspects of visualization design, design and evaluation of visualizations, visualizations studied by chemical education researchers, and visualizations designed for the chemistry classroom. Chapters 2-4 of this book focus on theoretical issues and concerns in developing and using animations and simulations to teach chemistry concepts. The theoretical frameworks described in these chapters not only include learning theories [such as Behaviorism, Cognitive Load Theory, and Vygotsky's Zone of Proximal Development], but also describe design principles that are informed by educational research on learning with multimedia. Both of these frameworks can be used to improve the way dynamic visualizations are designed, created, and utilized in the chemistry classroom. Chapters 5-8 of this book provide two examples of paired articles, in which the first chapter introduces and describes how the dynamic visuals were designed and created for use in chemistry instruction and the second chapter describes a chemical education research study performed to evaluate the effectiveness of using these dynamic visuals for chemistry instruction. Chapters 5 and 6 focus on interactive simulations created as part of the PhET Interactive Simulations Project. Chapters 7 and 8 focus on the virtual-world program Second Life and how it is being used to teach chemistry lessons. Chapters 9-14 of this book describe the results of chemical education research studies on the use of animations and simulations. Chapters 15-17 describe how specific dynamic visualization programs and modules were designed and how they should be utilized in the chemistry classroom to improve student learning.