Lab 2: Mineral Properties and Non-Silicate Minerals

Lab Structure

Recommended additional work Yes – review concepts from Labs 1 and 2 in preparation for Test 1
Required materials Mineral ID kit, Mineral Kits 1 and 2, pencil

Learning Objectives

By the end of this lab, you should be able to:

  • Describe mineral lattices and explain how they influence mineral properties.
  • Categorize minerals into groups based on their compositions.
  • Describe some of the important techniques for identifying minerals.
  • Identify and describe the physical properties of a range of non-silicate minerals in hand sample.
Key Terms
  • Lattice
  • Ionic
  • Covalent
  • Covalent bonds
  • Cation
  • Anion
  • Silicate
  • Non-silicate
  • Native mineral
  • Sulphide
  • Oxide
  • Hydroxide
  • Sulphate
  • Carbonate
  • Halide
  • Phosphate

Minerals are all around us: the graphite in your pencil, the salt on your table, the plaster on your walls, and the trace amounts of gold in your computer. Minerals can be found in a wide variety of consumer products including paper, medicine, processed foods, cosmetics, electronic devices, and many more. And of course, everything made of metal is also derived from minerals.

A mineral is a naturally occurring combination of specific elements arranged in a particular repeating three-dimensional structure. “Naturally occurring” implies that minerals are not artificially made.  Many minerals (e.g., diamond) can be made in laboratories, but if they can also occur naturally, they still qualify as minerals. “Specific elements” means that most minerals have a specific chemical formula or composition. The mineral pyrite, for example, is FeS2 (two atoms of sulfur for each atom of iron), and any significant departure from that would make it a different mineral. But many minerals can have variable compositions within a specific range. The mineral olivine, for example, can range all the way from Fe2SiO4 to FeMgSiOto Mg2SiO4. Intervening compositions are written as (Fe,Mg)2SiO4 meaning that Fe and Mg can be present in any proportion, and that there are two of them for each Si present.

Most important of all, a mineral has a specific “repeating three-dimensional structure” or “lattice,” which is the way in which the atoms are arranged. Some minerals have very simple lattice arrangements (i.e., halite), while other mineral lattices are more complicated. We will discuss how mineral lattices affect mineral properties during the lab.

License

Icon for the Creative Commons Attribution 4.0 International License

OLD - A Practical Guide to Introductory Geology (2023-2024 Edition) Copyright © 2022 by Matthew Minnett and Benjamin Daniels is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

Share This Book