Synopses & Reviews
"This is truly a delightful monograph." — Canadian Chemical Education
Designed as a useful, accessible introduction to the logical development of basic crystallographic concepts, this book presents important principles in a clear, concise manner that will enable the nonspecialist to read and comprehend crystallographic literature. Explanations are concise and mathematical prerequisites have been kept to a minimum.
In the first four chapters, the author presents the vocabulary of crystallography, with discussions of lattice points, unit cells, symmetry, point groups, crystal systems, space groups, and equivalent positions. The principles of x-ray diffraction and methods of determining crystal structures are summarized in the next two chapters. The final chapter describes various simple structures. Appendixes list the 230 space groups, introduce the reciprocal lattice, and describe the powder method. A well-chosen selection of problems (with solutions) encourages self-study.
Ideal as the basis for a course in crystallography and highly useful as an adjunct to physical chemistry courses, this book will also serve as an excellent reference for practicing chemists, mineralogists, metallurgists, and other workers in the field. 1969 edition.
Synopsis
Concise explanation of the logical development of basic crystallographic concepts. Extensive discussion of crystals and lattices, symmetry, crystal systems and geometry, x-ray diffraction, determination of atomic positions, and more. Well-chosen selection of problems, with answers. Ideal for crystallography course or as supplement to physical chemistry courses. 114 illustrations. 1969 edition.
Synopsis
Concise explanation of the logical development of basic crystallographic concepts. Extensive discussion of crystals and lattices, symmetry, crystal systems and geometry, x-ray diffraction, determination of atomic positions, and more. Well-chosen selection of problems, with answers. Ideal for crystallography course or as supplement to physical chemistry courses. 114 illustrations. 1969 edition.
Synopsis
Concise explanation of the logical development of basic crystallographic concepts. Extensive discussion of crystals and lattices, symmetry, crystal systems and geometry, x-ray diffraction, determination of atomic positions and more. Well-chosen selection of problems, with answers. Ideal for crystallography course or as supplement to physical chemistry courses. 114 illustrations .1969 edition.
Synopsis
Clear, concise explanation of logical development of basic crystallographic concepts. Topics include crystals and lattices, symmetry, x-ray diffraction, and more. Problems, with answers. 114 illustrations. 1969 edition.
Table of Contents
Preface
Chapter 1 Crystals and lattices
1-1 Definition of a crystal
1-2 Lattice points
1-3 Unit cells
1-4 Fractional coordinates
1-5 Unit cell calculations
1-6 Primitive and centered cells
Chapter 2 Symmetry
2-1 Introduction
2-2 Definition of symmetry
2-3 Symmetry operations and elements of symmetry
2-4 Rotation axes
2-5 Mirror planes
2-6 Identity
2-7 Center of symmetry
2-8 Improper rotation axes
2-9 Point symmetry
2-10 Combinations of symmetry elements
2-11 Point groups
2-12 Group multiplication table
2-13 Point group nomenclature
2-14 Determination of point groups
2-15 Limitation on combinations of symmetry elements
Chapter 3 Crystal systems and geometry
3-1 Classification of unit cells
3-2 Restrictions imposed by symmetry on unit cell dimensions
3-3 Crystal systems
3-4 Limitations on symmetry in crystals
3-5 Hermann-Mauguin notation
3-6 Bravais lattices
3-7 Distinction between trigonal and hexagonal systems
3-8 Crystal planes and indices
3-9 Law of rational indices
3-10 Interplanar spacings
Chapter 4 Space groups and equivalent positions
4-1 Translational symmetry
4-2 Screw axes
4-3 Glide planes
4-4 Space groups
4-5 "Relationship between space groups, point groups, and physical properties"
4-6 Equivalent positions
4-7 Special positions
4-8 Space group tables in International Tables for X-ray Crystallography
4-9 Examples of the use of space group tables
4-10 Equivalent positions and the choice or origin
Chapter 5 X-ray diffraction
5-1 Periodicity and structural information
5-2 The diffraction grating
5-3 Diffraction of X rays by crystals
5-4 The Laue equations
5-5 Rotating crystal method
5-6 Bragg's law
5-7 Generalization of Miller indices
5-8 Weissenberg camera
5-9 Buerger precession techniques
5-10 Comparison of Weissenberg and precession techniques
5-11 Information obtained from diffraction patterns
5-12 Electron density function
5-13 Fourier series
5-14 Fourier expansion of electron density
5-15 Intensities of diffraction spots
5-16 The phase problem
5-17 Calculation of structure factors
5-18 Effect of thermal vibration
5-19 Structure factors of centrosymmetric crystals
5-20 Friedel's law
5-21 Laue groups
5-22 Structure factors of sodium chloride
5-23 Extinctions due to glide planes
5-24 Extinctions due to screw axes
Chapter 6 Determination of atomic positions
6-1 Solutions of structure factor equations
6-2 The Patterson function
6-3 Heavy-atom methods
6-4 Isomorphous replacement
6-5 Superposition methods
6-6 Inequalities
6-7 Sayre-Cochran-Zachariasen relationship
6-8 Hauptman-Karle methods
6-9 Summary of phase-determining methods
6-10 Refinement
Chapter 7 Some simple structures
7-1 Close packing
7-2 Cubic close packing
7-3 Hexagonal close-packed structure
7-4 Body-centered cubic
7-5 Diamond structure
7-6 Graphite structure
7-7 Other elements
7-8 Sodium chloride structure
7-9 Cesium chloride structure
7-10 Fluorite structure
7-11 Rutile structure
7-12 Zinc sulfide structure
7-13 Zincite structure
7-14 Other structures
Appendix 1 The 230 space groups
Appendix 2 The reciprocal lattice
Appendix 3 The powder method
Solutions to exercises
Index