CRYSTALS.
Crystals adopt only 7 symmetric morphologies, which make their central atoms, simultaneous, present, symmetric focus of temporal energy coming from the external ecosystem.

9. Crystals. The perfect geometrical, fractal unit.
Crystalsare the scalar bridge between the molecular world of solids and the macro world of planets, made with 3 Non-AE regions: a ‘liquid/gaseous’ membrane inhabited by complex organic beings , an intermediate zone of rocks and a crystal core, the informative center of a planet. For example, the Earth seems to have a macro-crystal of iron hexagons in its center and Neptune a diamond crystal. Let us consider the main cycles of those crystals:
The informative cycle: the sharp focus of crystals.
Crystals create virtual minds of light that we see in their interior. They are focused images that create at a reduced scale a virtual world, mirror of the external Universe, as an eye does. Thus crystals have only regular symmetric forms that act as an eye does, establishing an objective, informative image of the external world, repeated at a smaller scale within the informative center of the crystal. In the graph, crystals show a clear relationship between spatial geometry and informative perception: only those crystals whose central atom of max. mass=information can observe symmetrically the temporal energy coming from the external world through its slave atoms, form a sharp equidistant focus and survive. While forms, which are not symmetric, at least in a bidimensional plane of space, such as form B, do not exist.
All crystals shape macro-social aggregations of billions of molecules that acquire geometrical forms similar to the 3 regular polyhedrons of the Universe, the hexagon, the tetrahedron and the cube, repeated ad infinitum. So the number of crystals is reduced to 32 possible networks configurations that are combinations of the 7 basic systems of the image, with symmetric axes. The reason is obvious: polyhedrons allow a correct, balanced absorption and emission of energy and information from all the relative directions of the external Universe coming through those axes. So the ultimate why of crystal’s morphologies is to perform the 3±1 energy-information cycles of the existential game. In that regard bidimensional hexagons, three-dimensional cubes and tetrahedrons are combinations of 2 forms, the triangle and the square, which represent the minimal ternary and quaternary systems that complete the 4 elements of a Quantic Spaces-Times field.
Scientists talk of 'symmetry' as a property common to all scales of the Universe, both in the world of sub particles and molecules. It basically means that a temporal, informative particle/form, like a crystal, whatever its position is respect to the external Universe, will maintain unchanged respect to its neutral focus or informative central point the relative distance and symmetry of all the molecules that shape the crystal. In this way the relative virtual world of the central atom will not change its form when it rotates, vibrates around its central atom or moves lineally, but only its perspective, as it happens with our eye’s image shaped by the ‘crystalline’ when we move the Head. If those inner axes and distances change then the ‘world’ structure becomes unfocused, as when man takes hallucinogens that change the brain composition or we introduce impurities in a crystal that changes sharply its focus.
In the graph we see the 7 basic possible crystal configurations in which any rotation maintains the inner structure invariant. They are either planar, bidimensional symmetries, triangular, 3-dimensional forms or 4-dimensional, cubic symmetries, the most perfect ones in a 4-dimensional Universe. For that reason the 32 basic crystal configurations are subspecies of the P-cube or primitive cube that generates all other crystals. Accordingly the biggest crystal networks are cubic networks. And the hardest crystal we know is the carbon tetrahedron, the diamond. It is also the most expensive item known to man. As if we knew subconsciously that a diamond has a soul, a virtual world in its inner core. Thus, we can create all complex crystals adding or subtracting to that primitive first cube new atoms, or deforming slightly its angles and edges. The result is the so-called orthorhombic system where 2 of the edges of the plane are elongated respect to the 2 others in a ‘relative lineal direction’ of energy; and the more complex clinic, and triclinic systems with non-straight angles between atoms, adapted to ecosystems in which the energy and form comes to the crystal from different angles. All those crystalline systems place sometimes a top predator atom in the central point of the cube, or in the geometrical centre of each face. The parallelism between the biological morphology of crystals and the inferior scale of orbitals is evident: In sd orbitals the 3 ‘d’ external spatial orbitals are integrated by the temporal, informative nucleus and central ‘s’ orbital, which in crystals is occupied by an atom. While hydrogens or other smallish atoms occupy the lineal p-orbitals, controlled by the bigger central atomic brain of the molecule.
Energetic cycles.
energy and information cycles are intertwined by the Law of transformation of energy into information, shaping dual rhythms of emission and absorption of both substances. So crystals also absorb and feed on light energy, vibrating with it as quartzes do; or emitting that energy, transformed into focused information, when they polarize light, ordering the different vibrating directions of photons into a single direction that packs better energy and information in highly ordered light rays with enormous TxE power. Further on crystals can create 4 dimensional holographic images, out of 2 bidimensional surfaces; trans-form continuous electromagnetic energy into discontinuous, highly informative, focused packages; change the frequency of light, absorbing certain types of light or filtrating only one frequency colour, etc.
Social evolution and reproduction of crystals.
Social evolution and reproduction are also 2 intertwined cycles: Most systems reproduce a first seminal cell and then evolve its morphology in a series of dual Reproduction->Evolution cycles that finally create a macro-organism. So happens in crystals, which evolve socially and reproduce from an initial, seminal ‘cellular unit’, creating macro-organisms. In fact, the way palingenetic crystals reproduce, follows all the laws of organic, reproductions.
Abstract geologists study the conditions, which determine the growth of crystals. A liquid state is the best, balanced state to reproduce and evolve complex forms also in crystals . Most crystals are reproduced dissolving its initial atomic components in certain liquids. Those initial components are called, even by abstract geologists, "nutrients", since they nurture the creation of the crystal, which takes place at a fast pace, thanks to the easiness by which liquids, the E=T reproductive state of matter, allow the combination and random contact between those nutrients, that socialize into a cellular crystal unit, to which new crystal units peg themselves. Thus crystals reproduce as a seminal radiation, since the first crystal precipitates the creation of further crystals around it, as in a reproductive process that grows new cells around the seed or the ovum. So new nutrients come around the organic crystal and the crystal grows over the trophic pyramid of nutrients, till they are exhausted and the crystal stops its growth. Then a balanced steady state is reached as the external cover of the crystal dissolves and grows back cyclically within the liquid.
Since according to the 3rd postulate social evolution happens among equals, crystals are formed only with 1 or 2 type of atoms. Crystals with more than 2 atoms are rare, so are crystals with a great quantity of impure atoms within their network. Crystals are social entities formed by million of atoms, which repeat the so-called “minimum cellular unit”, growing radially as they reproduce their forms through mathematical structures called fractals, that mimic them in bigger polyhedral i-scales. Those fractal structures exist in all molecules and crystals where there is a central knot, from where the radial, symmetrical faces grow, guided by the central knot.
Thus crystals can ‘transcend’ between 2 planes of existence far more easily than we humans do, from micro cells into macro-cellular existence, when a micro-organic crystal becomes a macro-organic crystal. Yet those crystals have, regardless of size, the same configuration that the seminal cell of the crystal. It is the First Law of Crystallography: The angles between the faces of any crystal are always the same for all sizes in a crystal of the same species. This law has a creative exception, as each minimal cell can combine with other crystalline cells into symbiotic more complex, dual ‘sexual crystals’, and a destructive exception, when impurities and fractures happen in the process of crystallization.
So crystals grow into huge ‘cellular networks’ by adding to a regular atomic polyhedron, another regular polyhedron and another... till creating networks of millions of regular polyhedrons that can reach the size of a planet core.
The cellular unit of any Fractal Organism is established by the minimal quantic, informative structure with fractal parts that repeats the bigger form and often corresponds to the ‘Schwarzschild radius’ of the system: In a single atom is the first territorial zone of control limited by the first orbital, or S1 spherical electron, which is not shared. In molecules the central atom has also a first formal, regular body-territory, hardly shared with other molecules, made of slave atoms bonded to him with dense electromagnetic flows called Van der Waals and London forces that the central atom perceives or feeds on. In a cell, the organelles of the intermediate territory are not shared. Humans do not share their home properties. Animals do not share their den. Yet all systems that have ‘an excess of energy’ can share the second territory in the limits of its Non-AE membrane. So as atoms share the external orbitals and humans their secondary properties, molecules share their most external atoms, which are those beyond the limiting border of its cellular unit.
So crystals are highly ordered, yet dynamic, organic systems in which flows of electromagnetic or electronic temporal energy enact the 5 cyclical actions of any space-time system.