Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.
Crystallization is a process in which a substance transitions from a disordered or chaotic state to a highly ordered crystalline state. It involves the formation of a three-dimensional arrangement of atoms, ions, or molecules in a repeating pattern, known as a crystal lattice. This process occurs as a result of cooling or evaporation, causing the particles within a liquid or gas to come together and arrange themselves into a stable, organized structure.
In crystallization, as a solution or melt cools down, the solute molecules or ions start to come together in an orderly manner, following specific geometric arrangements dictated by the type of substance and its chemical properties. This arrangement leads to the growth of crystals, which have well-defined facets, angles, and internal structures. Crystals can exhibit a wide range of shapes and sizes, depending on the conditions under which they form.
Crystallization is an essential process in various scientific, industrial, and natural contexts. It's used to separate and purify substances from mixtures, as different components may crystallize out at different temperatures or conditions. Additionally, the study of crystals provides insights into the atomic and molecular arrangements of materials, influencing fields such as materials science, chemistry, and geology.
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Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.Diffusion is insufficient to meet the oxygen requirement of multicellular organisms like human because all the cells are not direct contact in environment and diffusion is a slow process. Diffusion is too slow to cover the distance between the gas exchange surface and the sites where the oxygen is required.
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Answer:
Crystallization is a process in which a substance transitions from a disordered or chaotic state to a highly ordered crystalline state. It involves the formation of a three-dimensional arrangement of atoms, ions, or molecules in a repeating pattern, known as a crystal lattice. This process occurs as a result of cooling or evaporation, causing the particles within a liquid or gas to come together and arrange themselves into a stable, organized structure.
In crystallization, as a solution or melt cools down, the solute molecules or ions start to come together in an orderly manner, following specific geometric arrangements dictated by the type of substance and its chemical properties. This arrangement leads to the growth of crystals, which have well-defined facets, angles, and internal structures. Crystals can exhibit a wide range of shapes and sizes, depending on the conditions under which they form.
Crystallization is an essential process in various scientific, industrial, and natural contexts. It's used to separate and purify substances from mixtures, as different components may crystallize out at different temperatures or conditions. Additionally, the study of crystals provides insights into the atomic and molecular arrangements of materials, influencing fields such as materials science, chemistry, and geology.
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