Carbon Helium and lots of sodium along with H20
There are a lot of structures existing, the two most common is a body centered crystals (BCC) and face centered crystals (FCC). These crystals sits together and build up grains, grains contains the same type of structures.
Minerals grow in specific shapes, and usually crystallize into one of six crystal systems. The axes of the crystal, the angles at which the axes intersect, and the degree of symmetry define each system.
Isometric -- Also called the cubic crystal system. Crystals are usually shaped like blocks, with similar and symmetrical faces. The crystal has three axes of symmetry, all at right angles to each other, and all of the same length.
Example: pyrite.
Tetragonal -- Typically, the crystals are shaped like four-sided prisms and pyramids. Each crystal has three axes, all perpendicular to one another. Two axes are the same length and lie on a horizontal plane. The third axis is not the same length and is at a right angle to the other two.
Example: zircon.
Hexagonal -- These crystals are usually shaped like six-sided prisms or pyramids. Each crystal has four axes of symmetry. Three lie in the same plane, are the same length, and intersect at 120° angles. The fourth axis is not the same length, and is perpendicular to other three.
Example: beryl.
Orthorhombic -- These crystals are short and stubby. Each crystal has three unequal axes, all at right angles to one another.
Example: topaz
Monoclinic -- Crystals are short and stubby with tilted faces at each end. Each crystal has three unequal axes. Two axes lie in the same plane at right angles to each other. The third axis is inclined.
Example: gypsum.
Triclinic -- Crystals are usually flat with sharp edges, but exhibit no right angles. Each crystal has three unequal axes. None are perpendicular to one another.
Example: feldspar.
Carbon Helium and lots of sodium along with H20
Yes, each mineral has a specific crystal structure.
..a definite crystal form.
They are solid, naturally occurring, have a crystalline structure and a specific range of chemical formulae, and are inorganic.
Diamond fits the definition of a mineral in that it is naturally occurring, a solid, composed of an element or combination of elements, and has a crystalline structure. Many minerals contain carbon. Graphite, the mineral, is also pure carbon but with a different crystalline structure.
Solid, specific chemical composition, crystalline structure, formed by nature, and inorganic.
An atom is the smallest component of any element having all the chemical properties of that specific element. A compound is a substance consisting of two or more different elements. Minerals are solid homogeneous inorganic compounds having specific chemical compositions that can be represented by chemical formulas. They are different from rocks, which can be a mixture of minerals and non-minerals and do not have a specific chemical composition.
Ferromagnesian minerals are minerals that have iron or magnesium in their structure. The greater specific gravity is between 3.2 and 3.6. Some examples are pyroxene, biotite, garnet, and olvine.
Yes. Minerals have a crystalline structure and specific crystal properties which aid in their identification.
Minerals are solid, naturally occurring inorganic matter, with a specific chemical composition and crystalline structure. Rocks are composed of minerals.
Solid, specific chemical composition, crystalline structure, formed by nature, and inorganic.
They are solid, naturally occurring, have a crystalline structure and a specific range of chemical formulae, and are inorganic.
Minerals are solid, naturally occurring inorganic matter, with a specific chemical composition and crystalline structure. Rocks are composed of minerals.
Most rocks are composed of several minerals. Some rocks, such as limestone, can have only one mineral. Some rocks, such as obsidian, a volcanic glass have no distinguishable minerals. A mineral has a specific range of chemical compositon and a stable crystalline structure. If the substance in question does not have a crystalline structure, then it is a rock.
Diamond fits the definition of a mineral in that it is naturally occurring, a solid, composed of an element or combination of elements, and has a crystalline structure. Many minerals contain carbon. Graphite, the mineral, is also pure carbon but with a different crystalline structure.
Marble is in fact a type of metamorphic rock. Rocks are aggregate of one or many different kinds of minerals with no definite chemical composition and a specific crystalline structure that all minerals have, so marble is not a mineral.
Rocks are composed of minerals which are naturally occurring solids, with a specific chemical formula, are inorganic, and have a crystalline structure. Some rocks are also of organic origin, namely coal and many types of limestone.
Graphite is pure carbon with a specific crystalline structure.
If you are starting with a mineral, there is no need to determine if it is a mineral. Minerals are naturally occurring inorganic solids, with a specific chemical formula and a crystalline structure. If the material in question does not meet this definition, it probably isn't a mineral.
Solid, specific chemical composition, crystalline structure, formed by nature, and inorganic.