A mineral is a naturally occuring, homogeneous, solid with a crystalline atomic structure. Crystallinity implies that a mineral has a definite and limited range of composition, and that the composition is expressible as a chemical formula. Some definitions of minerals give them as inorganic materials, however both diamonds and graphite are considered minerals, and both are primarily comprised of carbon, which would make them organic. So this leads me, as an engineer, to believe that mineralogists do not have a good, precise definition of a mineral, but rather a loose definition. The definition above, is the most inclusive and would include all substances currently described as minerals. The key items that make something a mineral are occurring naturally, and the definite crystal structure, that is expressible as a chemical formula. Rocks that do not meet this criteria are referred to as amorphis - not having a definite structure or expressible as a chemical formula. Some elements that occur naturally and are minerals are arsenic, bismuth, platinum, gold, silver, copper, and sulphur.

THE DEFINITION OF ORGANIC: Organic chemistry is the study of those substances containing carbon in combination with hydrogen (H), and a few other non metals, namely oxygen (O), nitrogen (N), sulfur (S) and the halogens (F2, Cl2, Br2, and I2).

A Diamond has the chemical formula of C, pure carbon.

It is a cubic hexoctahedral class mineral, is the hardest known mineral, with a hardness index of 10. They are typically colorless, but can be tinted (by the presence of other minerals) yellow, blue, red, green, or rarely black. They are transparent to translucent and opaque. The only ore diamonds have been found in is Kinberlite or a type of kinberlite. A diamond has it's primary use in jewelery, but they are also widely used in industry as abrasives in cutting materials and metals. The diamond core drill bit has the cutter head embedded with diamonds, for instance.