WebPost-Lab Questions 1. Procedure for Mineral I.D. : observe physical properties, follow flow chart, arrive at mineral name 2. Breaks along smooth planes = cleavage scratches glass = hardness red power = streak 3. Three directions of cleavage at 90 degrees will result in a mineral that when broken, will form cube shapes. 4. Webgypsum X 110 Lab 2 Silicates quartz X 86-89 Lab 2 olivine X 132 Lab 2 garnet (almandine) X 133 not required pyroxene (augite) X 151 Lab 2 amphibole (hornblende) X 153 Lab 2 …
Mineral Mystery Lab - Activities
WebESS 210 Lab 4: Mineral Identification 2 Mineral Properties for 22 of the Common Rock-Forming Minerals Hardness Streak Color Cleavage and Fracture Mineral Color, Specific … Web2 O) Bunsen burner Procedure 1. Place a small scoop of each substance in the well plate and test the conductivity of each substance in its solid state. (Please make sure to turn off the device when finished.) 2. Add a few drops of distilled water to each well and stir with a toothpick (use a separate toothpick for each solid). membrane for redox flow battery
Solved Pame Lab 1 - Properties of Minerals Part 1: …
WebESS 210 Lab 4: Mineral Identification 2 Mineral Properties for 22 of the Common Rock-Forming Minerals Hardness Streak Color Cleavage and Fracture Mineral Color, Specific Gravity, etc. Luster Mineral Name 6 to 6.5 Gray to greenish-black Conchoidal fracture Brassy yellow, high specific gravity Metallic Pyrite 6 Black to dark gray Irregular WebProperties that help geologists identify a mineral in a rock are: color, hardness, luster, crystal forms, density, and cleavage. Crystal form, cleavage, and hardness are determined … WebMinerals that have a low metal content tend to have low specific gravities (3 to 5) and feel very light when held. Minerals with a high metal content tend to have high specific … membrane fouling mechanism