Mineralogy example sentences

"Mineralogy" Example Sentences

1. She studied the mineralogy of the rock samples.
2. The mineralogy class focused on identifying and classifying mineral specimens.
3. The research paper discussed the mineralogy and geochemistry of the ore deposits.
4. The mineralogy lab contained samples of various rock-forming minerals.
5. He specialized in the mineralogy of arid environment evaporites.
6. The mineralogy department housed a large collection of mineral specimens.
7. They analyzed the mineralogy and texture of the soil to determine its fertility.
8. The mineralogy of the rocks indicated they were of igneous origin.
9. They taught the basic principles of crystallography and mineralogy.
10. The mineralogy of the ore body changed at depth.
11. He conducted research on the mineralogy of impactite breccias.
12. The mineralogy of these sandstones is diverse and complex.
13. The mineralogy labs contained petrographic microscopes and X-ray diffractometers.
14. His research focused on the mineralogy of earth's mantle.
15. The mineralogy of lunar soils is quite different from that of terrestrial soils.
16. He performed experiments on the stability of rare Earth-bearing minerals.
17. Trace element geochemistry aided their study of the mineralogy.
18. The mineralogy of hydrothermal ore deposits often includes sulfide and sulfate minerals.
19. They found evidence of low temperature alteration in the mineralogy.
20. The mineralogy of metamorphic rocks can reveal the conditions of metamorphism.
21. Diamonds are studied using a variety of methods including mineralogy.
22. She taught courses in mineralogy, geochemistry and petrology.
23. The mineralogy showed evidence for high pressure metamorphism.
24. They discovered a new ore mineral during their mineralogy research.
25. The mineralogy of mantle xenoliths provided insight into the deep Earth.
26. The complex mineralogy presented a challenge to identify and classify the ore minerals.
27. Mineralogists seek to understand the mechanisms of mineral formation.
28. Trace element geochemistry aided in unravelling the complex mineralogy.
29. His work in mineralogy explored the formation of rare Earth element deposits.
30. The primary tools of mineralogy include the petrographic microscope and X-ray diffraction.
31. They analyzed the mineralogy, genesis and age of the rock units.
32. The provenance study relied partly on the mineralogy of the sediment.
33. The complex mineralogy included several polymorphs of the same compound.
34. She published numerous papers on the mineralogy of rare earth mineral deposits.
35. Stable isotope geochemistry supplemented the mineralogy analyses.
36. They studied the mineralogy to characterize and map the different rock units.
37. Lattice ions substituted in some of the minerals, altering the overall mineralogy.
38. Economic geology involves understanding ore mineralogy.
39. They observed mineralogical zoning in the drilled core samples.
40. He specialized in the mineralogy of alkaline igneous rocks.
41. Trace element studies shed light on the complex mineralogy.
42. The mineralogy provided clear evidence of former sedimentary structures.
43. His early research focused on the mineralogy and petrology of Archean rocks.
44. They sought to understand the chemistry and mineralogy behind ore genesis.
45. The mineralogy revealed alteration due to surface weathering processes.
46. The bulk mineralogy differed significantly from the mineralogy of the clasts.
47. The changing mineralogy down the drill core indicated a transition zone.
48. Fluid inclusions aided their research into the complex mineralogy.
49. His doctoral thesis focused on the mineralogy of rare earth element deposits.
50. The provenance indicators included heavy mineralogy and geochemistry.
51. The mineralogy showed signs of low grade metamorphism.
52. The research focused on unusual igneous mineralogy.
53. Meteorite mineralogy can reveal clues about the early Solar System.
54. They hoped to identify new ore minerals through their detailed mineralogy studies.
55. The data suggested a paragenetic sequence to the complex mineralogy.
56. They developed a classification scheme for the diverse mineralogy.
57. The fieldwork focused on collecting samples for laboratory mineralogy studies.
58. Volcanic environments often produce unusual mineralogies.
59. A mineralogical analysis was required to characterize the rock sample.
60. They taught courses on igneous and metamorphic petrology as well as mineralogy.

Common Phases

1. Mineralogy is the scientific study of minerals.
2. The mineralogist studied the minerals under the microscope to determine their crystal structure and composition.
3. The mineralogical composition of a rock reveals much about its origin and history.
4. Geologists rely heavily on mineralogy to understand the formation of igneous, sedimentary, and metamorphic rocks.
5. The new mineralogy textbook provided a detailed study of crystal structures, chemical properties, and classifications of minerals.
6. The researcher presented a new paper on the mineralogy of rare-earth minerals.
7. He analyzed soil samples using various techniques in mineralogy like powder X-ray diffraction and emission spectroscopy.
8. The subdiscipline of economic mineralogy examines ore deposits and economically valuable minerals.
9. Gemology is related to mineralogy but focuses specifically on gemstones and jewelry.
10. Mineralogy has developed hand in hand with advances in crystallography.
11. Experimental mineralogy involves growing synthetic crystals to study mineral properties.
12. The mineralogist will study fluorescent minerals under ultraviolet light.
13. His research in mineralogy focused on the formation of titanium minerals in magmas.
14. Planetary mineralogy investigates the minerals on extraterrestrial bodies.
15. The mineralogy course covered isometry, X-ray crystallography, optical properties, and crystal chemistry principles.
16. Forensic mineralogy uses mineralogical techniques in criminal investigations.
17. Applied mineralogy examines processes related to mineral usage by industry and society.
18. She was hired as a mineralogist for an engineering firm focused on mine development and mineral extraction.
19. His mineralogy research led to the discovery of three new mineral specimens.
20. A microprobe was used to analyze mineral textures and compositions in her mineralogy lab.
21. Organic mineralogy studies minerals containing carbon compounds.
22. She conducted mineralogical analysis of the ore deposits to determine their potential economic value.
23. The analysis of trace elements in minerals can provide clues about their formation conditions.
24. Their research in soil mineralogy focused on clay minerals and their role in soil properties.
25. Extraterrestrial mineralogy examines the minerals found in meteorites and interplanetary dust particles.
26. He published numerous papers on the mineralogy of pegmatites and unusual mineral assemblages.
27. Environmental mineralogy investigates mineral-organic matter interactions relevant to environmental processes.
28. The professor gave a fascinating lecture on the history and development of the field of mineralogy.
29. Pyrometallurgy, hydrometallurgy, and mineralogy are closely related fields in minerals processing engineering.
30. Petrology and mineralogy together provide a more complete picture of rock formation and composition.
31. Cosmochemical mineralogy studies the origin and early evolution of minerals in the solar nebula.
32. Textural analysis in mineralogy examines grain shapes, sizes, and spatial distributions of minerals.
33. They collected mineral specimens from around the world to study for their advanced mineralogy class.
34. Her research interests included theoretical mineralogy, crystal chemistry, and the thermodynamics of mineral stability.
35. Biomineralogy investigates the formation of minerals in biological systems.
36. Aquatic mineralogy examines the minerals present in natural waters.
37. Samples of unconsolidated minerals can also studied in environmental and soil mineralogy.
38. Astrobiology includes astrogeology and astrochemistry which overlap with planetary mineralogy.
39. Hazardous minerals are studied in industrial mineralogy to assess potential health risks.
40. The volcanic rocks contained an unusual and interesting mineral assemblage of interest for his research in igneous mineralogy.
41. The minerals inside the gemstones were analyzed using UV fluorescence and dichroscope microscopy in gemology and mineralogy labs.
42. Geomicrobiology studies interactions between minerals and microbes which has applications in environmental mineralogy.
43. The new scanning electron microscope allowed for advanced imaging and analysis in their mineralogy research.
44. Stable isotope geochemistry complements data from traditional mineralogical techniques.
45. Analysis of accessory minerals can provide important clues about a rock's origin and evolution.
46. Advances in mineralogy through history have relied heavily on developments in analytical chemistry techniques.
47. They found evidence of past hydrothermal activity by studying ore and alteration mineral assemblages.
48. Forensic mineralogists commonly analyze soils, clays, dust, paints, and other materials containing minerals.
49. Forensic applications of mineralogy include characterization of building materials, explosives, and illegal drug samples.
50. Clay mineralogy investigates the structure, composition, and properties of naturally occurring clay minerals.
51. Computational mineralogy uses computers to simulate and predict mineral formation, properties, and stabilities.
52. The students conducted tests on rock and ore samples to identify unknown minerals through their physical properties.
53. The mineralogy department had a collection of rare specimens for students to observe and study.
54. The geology department offered research opportunities in a variety of subdisciplines including sedimentary, igneous, metamorphic, planetary, and environmental mineralogy.
55. He earned his PhD in theoretical mineralogy after completing his dissertation on the crystal chemistry of micas.
56. Industrial applications of mineralogy include mineral exploration and mining, coal processing, glassmaking, and ceramic industries.
57. Trace elements and isotopes in minerals can provide information about temperature, pressure, and oxygen fugacity during mineral formation.
58. Nanomineralogy investigates the formation, properties, and behavior of minerals at the nanoscale.
59. The mining company hired a team of mineralogists, geochemists, and petrologists to assess the economic potential of the mineral deposits.
60. Recent advances in surface science and analytical techniques continue to revolutionize the field of mineralogy.