Description
A practical guide to the methods in general use for the complete analysis of silicate rock material and for the determination of all those elements present in major, minor or trace amounts in silicate and other rocks that are routinely, commonly or occasionally determined by methods that are considered to be essentially chemical in character. Such methods include those based upon spectrophotometry, flame emission spectrometry and atomic absorption spectroscopy, as well as gravimetry, titrimetry and the use of ion-selective electrodes. Separation stages are described in full, using precipitation, solvent extraction, distillation, and ion-ex procedures as appropriate. The third edition has been fully revised and updated.
Chapter
Chapter 2. Sample Decomposition
pp.:
35 – 46
Chapter 3. Classical Scheme for the Analysis of Silicate Rocks
pp.:
46 – 60
Chapter 4. The Rapid Analysis of Silicate Rocks
pp.:
60 – 76
Chapter 5. The Alkali Metals (Lithium, Sodium, Potassium, Rubidium, Caesium)
pp.:
76 – 87
Chapter 6. Aluminium
pp.:
87 – 98
Chapter 7. Antimony
pp.:
98 – 103
Chapter 8. Arsenic
pp.:
103 – 113
Chapter 9. Barium
pp.:
113 – 119
Chapter 10. Beryllium
pp.:
119 – 124
Chapter 11. Bismuth
pp.:
124 – 126
Chapter 12. Boron
pp.:
126 – 132
Chapter 13. Cadmium
pp.:
132 – 134
Chapter 14. Calcium
pp.:
134 – 140
Chapter 15. Carbon
pp.:
140 – 155
Chapter 16. Chlorine, Bromine and Iodine
pp.:
155 – 162
Chapter 17. Chromium
pp.:
162 – 172
Chapter 18. Cobalt
pp.:
172 – 177
Chapter 19. Copper
pp.:
177 – 182
Chapter 20. Fluorine
pp.:
182 – 192
Chapter 21. Gallium
pp.:
192 – 196
Chapter 22. Germanium
pp.:
196 – 199
Chapter 23. Hydrogen
pp.:
199 – 208
Chapter 24. Indium
pp.:
208 – 209
Chapter 25. Iron
pp.:
209 – 230
Chapter 26. Lead
pp.:
230 – 238
Chapter 27. Magnesium
pp.:
238 – 248
Chapter 28. Manganese
pp.:
248 – 255
Chapter 29. Mercury
pp.:
255 – 262
Chapter 30. Molybdenum and Tungsten
pp.:
262 – 269
Chapter 31. Nickel
pp.:
269 – 277
Chapter 32. Niobium and Tantalum
pp.:
277 – 282
Chapter 33. Nitrogen
pp.:
282 – 284
Chapter 34. Phosphorus
pp.:
284 – 291
Chapter 35. Scandium, Yttrium and the Lanthanide Rare Earths
pp.:
291 – 301
Chapter 36. Selenium and Tellurium
pp.:
301 – 307
Chapter 37. Silicon
pp.:
307 – 321
Chapter 38. Silver, Gold and the Platinum Metals
pp.:
321 – 328
Chapter 39. Strontium
pp.:
328 – 334
Chapter 40. Sulphur
pp.:
334 – 342
Chapter 41. Thallium
pp.:
342 – 347
Chapter 42. Thorium
pp.:
347 – 355
Chapter 43. Tin
pp.:
355 – 362
Chapter 44. Titanium
pp.:
362 – 369
Chapter 45. Uranium
pp.:
369 – 374
Chapter 46. Vanadium
pp.:
374 – 380
Chapter 47. Zinc
pp.:
380 – 385
Chapter 48. Zirconium and Hafnium
pp.:
385 – 388
Author Index
pp.:
388 – 394
Subject Index
pp.:
394 – 397
Chemical Methods of Rock Analysis
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