Some of the time, yes. Exposure to radiation and/or impurities can also alter a mineral's coloration. This can lead to a wide variety of coloration within a specific mineral group.
in the hood!
It depends on the chemical composition of the clay. Clay soils can be any shade of yellow to brown to red depending on the dominant minerals.
Rocks and minerals are classified by such properties as chemical composition, radioactivity, phosphorescence, grain size, hardness, color, streak, fluorescence, chemical reactiveness, crystal structure, cleavage, density, luster, habit, fracture, optical properties, and opacity.
There are actually quite a few properties to classify rocks and minerals. Some of these are chemical composition, radioactivity, phosphorescence, grain size, hardness, color, streak and fluorescence.
The red color comes from the large amounts of Iron Oxide (or rust) in the clay. Clay is generally made up of groups of minerals that include the kaolin, smectite, illite, and chlorite groups. Also see the related link.
The color of a mineral sample is determined by its chemical composition
The color is derived from the chemical composition of the mineral, or from staining or inclusions of other minerals.
The chemical composition of the rock affects the color of an igneous rockbecause some minerals like quartz change color becasue of t's own
in the hood!
Minerals have certain properties, or characteristics, that help to identify them. Minerals can be identified by their color, luster, streak, cleavage, hardness, specific gravity, and even by their chemical composition.
It depends on the chemical composition of the clay. Clay soils can be any shade of yellow to brown to red depending on the dominant minerals.
It depends on the chemical composition of the clay. Clay soils can be any shade of yellow to brown to red depending on the dominant minerals.
An iceberg composition is almost entirely ice, with some rocks and other material's. white in color and the color of the rocks and minerals.
Yes, the composition of a star can be determined by analysis of its color, which would be described scientifically as spectrographic analysis.
Rocks and minerals are classified by such properties as chemical composition, radioactivity, phosphorescence, grain size, hardness, color, streak, fluorescence, chemical reactiveness, crystal structure, cleavage, density, luster, habit, fracture, optical properties, and opacity.
The composition types of sediments is made up.
There are actually quite a few properties to classify rocks and minerals. Some of these are chemical composition, radioactivity, phosphorescence, grain size, hardness, color, streak and fluorescence.