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Statements

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dbr:John_William_Strutt,_3rd_Baron_Rayleigh
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dbr:Representative_layer_theory
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dbr:Representative_Layer_Theory
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dbr:Representative_layer_theory
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dbr:Representative_layer_theory
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dbr:Gustav_Mie
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dbr:Representative_layer_theory
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dbr:Arthur_Schuster
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dbr:Representative_layer_theory
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dbr:Absorbance
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dbr:Representative_layer_theory
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dbr:Diffuse_reflectance_spectroscopy
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dbr:Representative_layer_theory
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dbr:Representative_layer_theory
rdfs:label
Representative layer theory
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The concept of the representative layer came about though the work of Donald Dahm, with the assistance of Kevin Dahm and Karl Norris, to describe spectroscopic properties of particulate samples, especially as applied to near-infrared spectroscopy. A representative layer has the same void fraction as the sample it represents and each particle type in the sample has the same volume fraction and surface area fraction as does the sample as a whole. The spectroscopic properties of a representative layer can be derived from the spectroscopic properties of particles, which may be determined by a wide variety of ways. While a representative layer could be used in any theory that relies on the mathematics of plane parallel layers, there is a set of definitions and mathematics, some old and some new
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dbc:Spectroscopy
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67525376
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1090574183
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dbr:Attenuation_coefficient dbr:Near-infrared_spectroscopy dbc:Spectroscopy dbr:Absorbance dbr:Kubelka-Munk_theory dbr:Diffuse_reflectance_spectroscopy
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dbo:abstract
The concept of the representative layer came about though the work of Donald Dahm, with the assistance of Kevin Dahm and Karl Norris, to describe spectroscopic properties of particulate samples, especially as applied to near-infrared spectroscopy. A representative layer has the same void fraction as the sample it represents and each particle type in the sample has the same volume fraction and surface area fraction as does the sample as a whole. The spectroscopic properties of a representative layer can be derived from the spectroscopic properties of particles, which may be determined by a wide variety of ways. While a representative layer could be used in any theory that relies on the mathematics of plane parallel layers, there is a set of definitions and mathematics, some old and some new, which have become part of representative layer theory. Representative layer theory can be used to determine the spectroscopic properties of an assembly of particles from those of the individual particles in the assembly. The sample is modeled as a series of layers, each of which is parallel to each other and perpendicular to the incident beam. The mathematics of plane parallel layers is then used to extract the desired properties from the data, most notably that of the linear absorption coefficient which behaves in the manner of the coefficient in Beer’s law. The representative layer theory gives a way of performing the calculations for new sample properties by changing the properties of a single layer of the particles, which doesn’t require reworking the mathematics for a sample as a whole.
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wikipedia-en:Representative_layer_theory?oldid=1090574183&ns=0
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36508
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wikipedia-en:Representative_layer_theory
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wikipedia-en:Representative_layer_theory
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