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020 | _a0486678393 | ||
040 | _cCUS | ||
082 | 0 | 0 |
_a548 _bSAN/I |
100 | 1 | _aSands, Donald E. | |
245 | 1 | 0 |
_aIntroduction to crystallography/ _cDonald E. Sands. |
260 |
_aNew York : _bDover, _c1993. |
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300 |
_axii, 165 p. : _bill. ; _c22 cm. |
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440 | 0 | _aDover classics of science and mathematics | |
500 | _aOriginally published: Reading, Mass. : W.A. Benjamin, 1969 (corrected printing 1975) (Physical chemistry monograph series). | ||
504 | _aIncludes bibliographical references and index. | ||
505 | _aDOVER SCIENCE BOOKS; INTRODUCTION TO CRYSTALLOGRAPHY; Title Page; Copyright Page; Preface; Table of Contents; 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 groups2-12 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 POSITIONS4-1 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 of 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 method5-6 Bragg's law; 5-7 Generalization of Miller indices; 5-8 Weissenberg camera; 5-9 Buerger precession camera; 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 chloride5-23 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. | ||
650 | 0 | _aCrystallography. | |
942 |
_cSC79 _01 |