the interactical shape of its form would be the growth of it.
The rate at which magma cools determines the size of the mineral crystal.
crystals are blank that have had a chance to grow and take shape.
Crystals do not give energy!
The crystallization temperature is important in forming solid crystals because it determines the point at which a liquid substance transitions into a solid crystal structure. This temperature is crucial for controlling the size, shape, and purity of the crystals formed, ultimately influencing the properties and applications of the final product.
There is no single answer for this. Many chemicals form crystals, and the chemical determines the nature of the crystal. If you know what kind of crystal, then you know its chemical nature. For example, common clear quartz crystals are made up of SiO2 or Silicon dioxide. Copper sulfate crystals have an entirely different shape and a deep blue-green color, and both are different from crystals of common table salt.
Borax forms crystals with a Monoclinic Prismatic structure.
The specific shape of a protein, known as its tertiary structure, determines its function.
Graphite crystals have a hexagonal shape due to the arrangement of carbon atoms in layers called graphene sheets. These sheets are stacked on top of each other, forming the distinct hexagonal shape of graphite crystals.
The gene sequence determines the codon, which in turn determines the aminoacid, which in turn determines the tridimensional shape on the protein, which in turn determines the shape of the active site, which in turn determines what it'll be catalysing.
The rate at which the magma cools determines the size of crystals in an igneous rock. Slow cooling allows for large crystals to form, while rapid cooling results in small or no crystals. Other factors such as mineral composition and pressure can also influence crystal size.
Yes, they can "grow".
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