Crystallization and cooling magma are related in the sense that cooling and crystallization occurs simultaneously. As the magma cools it crystallizes, the faster the rate of cooling the quicker crystals would develop and the slower the cooling the larger the crystals in other cases when the magma cool so rapidly crystal development may not be so prominent.
minerals form
minerals form
Crystallization is when minerals form from magma. Crystallization takes time.
No."Granite is formed by the slow cooling & crystallization of magma at some depth in the earth's crust, as indicated by its characteristic phaneritic & phaneritic-porphyritic texture."-The Audubon Society Field Guide to North American Rocks & Minerals
crystallization above ground and crystallization below ground
minerals form
minerals form
Igneous rock
The cooling, solidification, crystallization and hardening of molten magma or lava.
The magma starts cooling and crystallizing. The crystallization cause the magma to change composition. This is referred to as magma evolution.
Rocks formed by crystallization from a melt (magma).
Crystallization is when minerals form from magma. Crystallization takes time.
Igneous rock forms from the cooling of molten material called magma or lava.
An intrusive igneous rock is formed by the gradual cooling, solidification, and crystallization of magma within the earths crust/interior.
They form from the extremely rapid cooling of lava or magma. The quick cooling does not allow time for the crystallization of minerals, resulting in the formation of a natural glass.
No."Granite is formed by the slow cooling & crystallization of magma at some depth in the earth's crust, as indicated by its characteristic phaneritic & phaneritic-porphyritic texture."-The Audubon Society Field Guide to North American Rocks & Minerals
Several minerals form in slow cooling magma. Some of those minerals are quartz, plagioclase feldspar, and potassium feldspar. These are the same minerals that are found in granite.