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Commission on Crystallographic Teaching
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Teaching Pamphlets
Series Preface
The long term aim of the Commission on Crystallographic Teaching in
establishing this pamphlet programme is to produce a large collection of
short statements each dealing with a specific topic at a specific level. The
emphasis is on a particular teaching approach and there may well, in time,
be pamphlets giving alternative teaching approaches to the same topic. It
is not the function of the Commission to decide on the `best' approach
but to make all available so that teachers can make their own selection.
Similarly, in due course, we hope that the same topics will be covered at
more than one level.
The first set of ten pamphlets, published in 1981, and this second set of
nine represent a sample of the various levels and approaches and it is hoped
that they will stimulate many more people to contribute to this scheme. It
does not take very long to write a short pamphlet, but its value to someone
teaching a topic for the first time can be very great.
Each pamphlet is prefaced by a statement of aims, level, necessary
background, etc.
C. A. Taylor
Editor for the Commission
First Series (1981)
- 1. A non-mathematical introduction to X-ray diffraction. C. A. Taylor
- 2. An introduction to the
scope, potential and applications
of X-ray analysis. M. Laing
- 3. Introduction to the Calculation of Structure Factors. S. C. Wallwork
- 4. The Reciprocal Lattice. A. Authier
- 5. Close-packed structures. P. Krishna and D. Pandey
- 6. Pourquoi les groupes de Symetrie en Cristallographie. D. Weigel
- 7. Solving the phase problem when heavy atoms are in
special positions. L. Hohne and L. Kutchabsky
- 8. Anomalous Dispersion of X-rays in Crystallography. S. Caticha-Ellis
- 9. Rotation Matrices and Translation Vectors in
Crystallography. S. Hovmöller
- 10. Metric Tensor and Symmetry operations in
Crystallography. 0. Rigault
Second Series
- 11. The Stereographic Projection. E. J. W. Whittaker
- 12. Projections of Cubic Crystals. Ian 0. Angell and
Moreton Moore
- 13. Symmetry. L. S. Dent Glasser
- 14. Space Group Patterns. W. M. Meier
- 15. Elementary X-Ray Diffraction for Biologists. Jenny P. Glusker
- 16. The Study of Metals and Alloys by X-ray Powder
Diffraction Methods. H. Lipson
- 17. An Introduction to Direct Methods. The Most
Important Phase Relationships and their
Application in Solving the Phase Problem. H. Schenk
- 18. An Introduction to Crystal Physics. Ervin Hartmann
- 19. Introduction to Neutron Powder Diffractometry. E. Arzi
Updated 19th December 1996
Copyright © 1997 International Union of Crystallography
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