what is the difference between anisotropic and Antropy?
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Isotropic vs. Anisotropic
“Isotropic” and “anisotropic” are two contrasting adjectives and nouns used to describe the properties of materials and minerals. Both “isotropic” and “anisotropic” also contain the element of direction in their descriptions.
“Anisotropic” refers to the properties of a material that is dependent on the direction. Another condition that can fit the anisotropic definition is the presence of different properties in different directions. A different chemical bonding in all directions is also a condition for anisotropy.
A mineral can be considered as anisotropic if it allows some light to pass through it. The mineral’s upper polar system allows light to pass through; in truth, it affects the polarization of light. The velocity of light is also different, and there is double refraction (which means that light is split in two directions).
minerals, double refraction can lead to either of its two possible types – uniaxial (meaning one optic axis) or biaxial (two axes).
Anisotropic materials are often found in different fields like computer graphics, chemistry, real-world imagery, physics, geography and geophysics, medical acoustics, material science and engineering, microfabrication, and neuroscience.
“Isotropic” and “anisotropic” are two contrasting adjectives and nouns used to describe the properties of materials and minerals. Both “isotropic” and “anisotropic” also contain the element of direction in their descriptions.
“Anisotropic” refers to the properties of a material that is dependent on the direction. Another condition that can fit the anisotropic definition is the presence of different properties in different directions. A different chemical bonding in all directions is also a condition for anisotropy.
A mineral can be considered as anisotropic if it allows some light to pass through it. The mineral’s upper polar system allows light to pass through; in truth, it affects the polarization of light. The velocity of light is also different, and there is double refraction (which means that light is split in two directions).
minerals, double refraction can lead to either of its two possible types – uniaxial (meaning one optic axis) or biaxial (two axes).
Anisotropic materials are often found in different fields like computer graphics, chemistry, real-world imagery, physics, geography and geophysics, medical acoustics, material science and engineering, microfabrication, and neuroscience.
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