| Exercises in Crystallography |
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Symmetry Contents of Letters, Motifs, and Common Objects |
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1 | (9) |
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Symmetry Elements and Their Combinations as Expressed by External Crystal Form: 32 Point Groups |
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10 | (19) |
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Common Crystal Forms, Choice of Coordinate Axes, and Symmetry Notation in Crystals |
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29 | (24) |
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Indexing of Planes and Directions in a Lattice and on Crystals |
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53 | (18) |
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71 | (8) |
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Contact Goniometer Measurements of Interfacial Angles and Their Stereographic Projections |
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79 | (7) |
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Development of the {111} or {1121} Form in Several Point Group Symmetries |
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86 | (13) |
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Development of Additional Forms on the Basis of Miller Index and Point Group Symmetry |
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99 | (10) |
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109 | (14) |
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Symmetry and Translation in One- and Two-Dimensional Patterns |
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123 | (30) |
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153 | (22) |
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Space Groups---An Introduction to their Graphical Representation |
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175 | (22) |
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Recognition of Space Group Elements in Crystal Structures |
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197 | (18) |
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Identification of an Unknown by X-ray Powder Diffraction Film |
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215 | (16) |
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Identification of an Unknown by X-ray Powder Diffractometer Tracing |
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231 | (8) |
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Determination of the Unit Cell Size of an Isometric Mineral from Its X-ray Powder Diffraction Pattern |
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239 | (6) |
| Exercises in Mineralogy |
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Atomic Packing, Radius Ratios, Coordination Numbers and Polyhedra, and Electrostatic Valency |
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245 | (22) |
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On the Linking of Anionic Groups: Triangles in Borates and Tetrahedra in Silicates |
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267 | (10) |
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From Mineral Analysis to Chemical Formula |
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277 | (12) |
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Graphical Representation of Mineral Analyses (in Terms of Molecular Percentages of Selected Components) on Triangular Diagrams |
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289 | (9) |
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Graphical Representation of Mineral Formulas on Triangular Diagrams |
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298 | (5) |
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Physical Properties of Minerals I: Habit, Twinning, Cleavage, Fracture, Luster, Color, and Streak |
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303 | (10) |
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Physical and Some Chemical Properties of Minerals II: Hardness, Tenacity, Specific Gravity, Magnetism, Fluorescence, Solubility in Hydrochloric Acid, and Radioactivity |
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313 | (8) |
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An Introduction to the Study of Minerals in Hand Specimens. Rock-Forming Silicates: Common Framework Silicates and Their Physical Properties |
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321 | (6) |
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Rock-Forming Silicates: Common Chain Silicates and Their Physical Properties |
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327 | (4) |
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Rock-Forming Silicates: Common Layer Silicates and Their Physical Properties |
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331 | (3) |
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Rock-Forming Silicates: Common Silicates Whose Structures Contain Independent Tetrahedra, Double Tetrahedra, or Tetrahedral Rings, and Their Physical Properties |
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334 | (5) |
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Common Oxides, Hydroxides and Halides, and Their Physical Properties |
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339 | (6) |
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Common Carbonates, Sulfates, Tungstate, and Phosphates, and Their Physical Properties |
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345 | (6) |
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Native Elements, Sulfides, and a Sulfosalt and Their Physical Properties |
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351 | (7) |
| Exercises in Hand Specimen Petrology |
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Metallic and Nonmetallic Ore Minerals and Ores: Their Classification, Associations, and Origin |
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358 | (17) |
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Igneous Rocks in Hand Specimens and Their Classification |
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375 | (10) |
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Sedimentary Rocks in Hand Specimens and Their Classification |
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385 | (10) |
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Metamorphic Rocks in Hand Specimens and Their Classification |
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395 | (6) |
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Plotting of Metamorphic Mineral Assemblages in the System SiO2--MgO--Al2O3--H2O: Low-, Medium-, and High-Temperature Assemblages |
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401 | |
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