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In chemistry, the molar absorption coefficient or molar attenuation coefficient ( ε) [1] is a measurement of how strongly a chemical species absorbs, and thereby attenuates, light at a given wavelength. It is an intrinsic property of the species.
Overview. The attenuation coefficient describes the extent to which the radiant flux of a beam is reduced as it passes through a specific material. It is used in the context of: X-rays or gamma rays, where it is denoted μ and measured in cm −1;
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The spectrum of pure bilirubin is known, so the molar attenuation coefficient ε is known. Measurements of decadic attenuation coefficient μ 10 are made at one wavelength λ that is nearly unique for bilirubin and at a second wavelength in
The Molar attenuation coefficient (also called "molar absorptivity"), which is the absorption coefficient divided by molarity (see also Beer–Lambert law) The mass attenuation coefficient (also called "mass extinction coefficient"), which is the absorption coefficient divided by density.
Extinction coefficient refers to several different measures of the absorption of light in a medium: Attenuation coefficient, sometimes called "extinction coefficient" in meteorology or climatology. Mass extinction coefficient, how strongly a substance absorbs light at a given wavelength, per mass density.
The attenuation coefficient can be used to determine total attenuation in dB in the medium using the following formula: Attenuation = α [ dB MHz ⋅ cm ] ⋅ ℓ [ cm ] ⋅ f [ MHz ] {\displaystyle {\text{Attenuation}}=\alpha \left[{\frac {\text{dB}}{{\text{MHz}}{\cdot }{\text{cm}}}}\right]\cdot \ell [{\text{cm}}]\cdot {\text{f ...
In optics, the refractive index (or refraction index) of an optical medium is a dimensionless number that gives the indication of the light bending ability of that medium. Refraction of a light ray. The refractive index determines how much the path of light is bent, or refracted, when entering a material.
