Close packing basically means that the atoms are so close together, that they can not get any closer to each other. This means that the empty space between the atoms is minimized. Density is weight per volume, so the less empty volume there is, the higher the density will be.
Minerals with close-packing structures have high densities because their atoms are tightly arranged and closely packed together, reducing empty space between them. This arrangement allows for more atoms to be present in a given volume, resulting in a higher mass per unit volume and, thus, a higher density.
Minerals with closest packing have high density because their atoms are arranged in a way that minimizes empty space between them. This close arrangement of atoms allows for more atoms to be packed into a given volume, resulting in higher density. Closest packing is a highly efficient crystalline structure that maximizes atomic packing, leading to increased density.
Close packing basically means that the atoms are so close together, that they can not get any closer to eachother. This means that the empty space between the atoms is minimized. Density is weight per volume, so the less empty volume there is, the higher the density will be.
Color, luster, relative density, and possibly crystalline structure.
Diamond is a crystalline form of carbon which has a density of has a density of 3.51 gm/cm3 compared to 2.26 gm/cm3in the graphite form. Imperfectly formed crystalline forms of diamond are called bort and black diamond.Source: http://hyperphysics.phy-astr.gsu.edu/hbase/minerals/diamond.html
A Chemical composition, a definite internal atomic structure and an external form.
Minerals of a nonsilicate crystal have very high densities because their crystal structures are based on the packing of atoms that are as close together as possible. This structure is called this closest packing.
The native elements have very high desities because their crystal structures are based on the packing of atoms as close together as possible
In order to be a mineral, substances need to have fixed internal crystalline structure. Natural glass does not.
Minerals with closest packing have high density because their atoms are arranged in a way that minimizes empty space between them. This close arrangement of atoms allows for more atoms to be packed into a given volume, resulting in higher density. Closest packing is a highly efficient crystalline structure that maximizes atomic packing, leading to increased density.
Density
The density and specific gravity of a mineral is caused by the arrangement of atoms in the crystalline structure and the elements of which the mineral is composed.
Several examples: density, color, refractive index, crystalline structure, melting point.
Several examples: density, color, refractive index, crystalline structure, melting point.
Close packing basically means that the atoms are so close together, that they can not get any closer to eachother. This means that the empty space between the atoms is minimized. Density is weight per volume, so the less empty volume there is, the higher the density will be.
To meet the definition of a mineral, a substance must be an inorganic, naturally occurring solid, with a set parameter of chemical formulas and a crystalline structure. Non-defining physical properties or characteristics of minerals include: hardness, luster, cleavage, crystal structure, chemical formula, streak, radioactivity, refraction, magnetism, and pleochroism.
Color, luster, relative density, and possibly crystalline structure.
There is a large number of minerals and different minerals have different density.