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Minerals in Thin Section, 2nd edition

Published by Pearson (June 5, 2003) © 2004

  • Dexter Perkins University of North Dakota
  • Kevin R. Henke University of Kentucky, Lexington
$106.66

  • Hardcover, paperback or looseleaf edition
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For courses in Optical Mineralogy, Mineralogy, Crystallography, Petrology, and Petrography; and for routine petrographic work in the lab.

This clear and concise text assists students as they look at thin sections. It focuses on the practical, need-to-know information absolutely necessary for work in the laboratory.

  • NEW - Added line drawings in Part II—Totals more than 60 new pictures.

    • Explains, better than words, the relationships between optical properties and crystal shapes.

  • NEW - Added graphs—Determines feldspar, pyroxene, and olivine composition.

    • Shows the relationship between optical properties and mineral composition.

  • NEW - Expanded and revised content throughout.
  • NEW - More than 30 pages of color photos.

    • Illustrates the described minerals in detail—crucial in assisting students with their identification.

  • Brief discussion of the theoretical aspects of optical crystallography—While the practical aspects and techniques of mineral identification are emphasized.

    • Designed for student use in the lab.

  • Unique approach to methods for identifying and classifying minerals—Examined from the student's point of view and explained clearly and concisely see Box 1 and 2, inside covers.

    • Helps hone students' lab skills.

  • Detailed discussion of about 60 of the most important rock forming minerals—Includes appendices that list properties of a larger number of minerals.

    • Offers students a focused presentation and manageable scope of material—rather than encyclopedic.

  • Added line drawings in Part II—Totals more than 60 new pictures.

    • Explains, better than words, the relationships between optical properties and crystal shapes.

  • Added graphs—Determines feldspar, pyroxene, and olivine composition.

    • Shows the relationship between optical properties and mineral composition.

  • Expanded and revised content throughout.
  • More than 30 pages of color photos.

    • Illustrates the described minerals in detail—crucial in assisting students with their identification.

I. THEORETICAL CONSIDERATIONS.

What Is Light?

Polarization of Light and the Polarizing Microscope.

The Velocity of Light in Crystals and the Refractive Index.

Interaction of Light and Crystals.

Other Mineral Characteristics in Thin Sections.

II. IDENTIFYING MINERALS IN THIN SECTION.

Detailed Mineral Description.

Appendix A: Common Opaque Minerals.

Appendix B: Isotropic Minerals Ordered by Refractive Index.

Appendix C: Uniaxial Minerals Sorted by Optic Sign and Ordered by Refractive Index.

Appendix D: Biaxial Minerals Sorted by Optic Sign and Ordered by Refractive Index.

Appendix E: Minerals Ordered by Interference Colors and Sorted by Optic System and Optic Sign.

Appendix F: Alphabetical List of Minerals and Mineral Properties.

Color Photographs.

Mineral Index.

Dr. Dexter Perkins received his Ph.D. from the University of Michigan in 1979. He has published over 80 papers and three books. He has had research appointments at the University of Chicago and the Universite Blaise Pascal and has been a regular faculty member in the Department of Geology and Geological Engineering at the University of North Dakota for more than 20 years. His current research is focused on mineral equilibria and science education reform.

Kevin R. Henke received his Ph.D. in geology from the University of North Dakota in 1997. He has had research and postdoctoral appointments at Oak Ridge National Laboratory, in the Chemistry Department at North Dakota State University, and in the Chemistry Department at the University of Kentucky. He has also taught in the Department of Geological Sciences at the University of Kentucky. Currently, he is researching the chemistry and environmental impacts of mercury and other heavy metals as an employee of the Center for Applied Energy Research at the University of Kentucky, Lexington.

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