Synopsis
Understanding of earth’s climates and climate change is governed by radiative processes in the earth-atmosphere system; in which aerosols with other particulates play a major role. The radiative properties of atmospheric aerosols are critically dependent on their refractive indices as a function of wavelength and also on their size. Theoretical modelling of light scattering by spherically assumed aerosol particles is always desired not only to gain insight to radiative transfer process but also to supplement ground based experiments. In the present study, we attempt to compute extinction efficiency (Qe), scattering efficiency (Qs) and absorption efficiency (Qa) as function of incident wavelength and size of aerosols. These parameters are then used to compute extinction cross-section (σe), scattering cross-section (σs) and absorption cross-section (σa). A mathematical scheme to deduce above parameters is discussed within the far-field (asymptotic) assumption.
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Mathematical Modelling for Light Scattering by Spherical Aerosols
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Taschenbuch. Condition: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Understanding of earth's climates and climate change is governed by radiative processes in the earth-atmosphere system; in which aerosols with other particulates play a major role. The radiative properties of atmospheric aerosols are critically dependent on their refractive indices as a function of wavelength and also on their size. Theoretical modelling of light scattering by spherically assumed aerosol particles is always desired not only to gain insight to radiative transfer process but also to supplement ground based experiments. In the present study, we attempt to compute extinction efficiency (Qe), scattering efficiency (Qs) and absorption efficiency (Qa) as function of incident wavelength and size of aerosols. These parameters are then used to compute extinction cross-section (se), scattering cross-section (ss) and absorption cross-section (sa). A mathematical scheme to deduce above parameters is discussed within the far-field (asymptotic) assumption. 92 pp. Englisch. Seller Inventory # 9783659555992
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Mathematical Modelling for Light Scattering by Spherical Aerosols
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Mathematical Modelling for Light Scattering by Spherical Aerosols
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Mathematical Modelling for Light Scattering by Spherical Aerosols
Published by
LAP LAMBERT Academic Publishing Jul 2019, 2019
ISBN 10: 3659555991
ISBN 13: 9783659555992
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Taschenbuch. Condition: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Understanding of earth's climates and climate change is governed by radiative processes in the earth-atmosphere system; in which aerosols with other particulates play a major role. The radiative properties of atmospheric aerosols are critically dependent on their refractive indices as a function of wavelength and also on their size. Theoretical modelling of light scattering by spherically assumed aerosol particles is always desired not only to gain insight to radiative transfer process but also to supplement ground based experiments. In the present study, we attempt to compute extinction efficiency (Qe), scattering efficiency (Qs) and absorption efficiency (Qa) as function of incident wavelength and size of aerosols. These parameters are then used to compute extinction cross-section (¿e), scattering cross-section (¿s) and absorption cross-section (¿a). A mathematical scheme to deduce above parameters is discussed within the far-field (asymptotic) assumption.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 92 pp. Englisch. Seller Inventory # 9783659555992
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Mathematical Modelling for Light Scattering by Spherical Aerosols
Published by
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ISBN 10: 3659555991
ISBN 13: 9783659555992
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Taschenbuch. Condition: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Understanding of earth's climates and climate change is governed by radiative processes in the earth-atmosphere system; in which aerosols with other particulates play a major role. The radiative properties of atmospheric aerosols are critically dependent on their refractive indices as a function of wavelength and also on their size. Theoretical modelling of light scattering by spherically assumed aerosol particles is always desired not only to gain insight to radiative transfer process but also to supplement ground based experiments. In the present study, we attempt to compute extinction efficiency (Qe), scattering efficiency (Qs) and absorption efficiency (Qa) as function of incident wavelength and size of aerosols. These parameters are then used to compute extinction cross-section (se), scattering cross-section (ss) and absorption cross-section (sa). A mathematical scheme to deduce above parameters is discussed within the far-field (asymptotic) assumption. Seller Inventory # 9783659555992
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Mathematical Modelling for Light Scattering by Spherical Aerosols
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Taschenbuch. Condition: Neu. Mathematical Modelling for Light Scattering by Spherical Aerosols | Parthkumar Bhagvatsinh Dodiya (u. a.) | Taschenbuch | 92 S. | Englisch | 2019 | LAP LAMBERT Academic Publishing | EAN 9783659555992 | Verantwortliche Person für die EU: preigu GmbH & Co. KG, Lengericher Landstr. 19, 49078 Osnabrück, mail[at]preigu[dot]de | Anbieter: preigu. Seller Inventory # 117162697
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Mathematical Modelling for Light Scattering by Spherical Aerosols
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LAP LAMBERT Academic Publishing, 2019
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Condition: Sehr gut. Zustand: Sehr gut | Sprache: Englisch | Produktart: Bücher | Understanding of earth¿s climates and climate change is governed by radiative processes in the earth-atmosphere system; in which aerosols with other particulates play a major role. The radiative properties of atmospheric aerosols are critically dependent on their refractive indices as a function of wavelength and also on their size. Theoretical modelling of light scattering by spherically assumed aerosol particles is always desired not only to gain insight to radiative transfer process but also to supplement ground based experiments. In the present study, we attempt to compute extinction efficiency (Qe), scattering efficiency (Qs) and absorption efficiency (Qa) as function of incident wavelength and size of aerosols. These parameters are then used to compute extinction cross-section (¿e), scattering cross-section (¿s) and absorption cross-section (¿a). A mathematical scheme to deduce above parameters is discussed within the far-field (asymptotic) assumption. Seller Inventory # 35260577/2
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