ISSN:
1573-1626
Source:
Springer Online Journal Archives 1860-2000
Topics:
Architecture, Civil Engineering, Surveying
,
Geosciences
,
Physics
Description / Table of Contents:
Summary The motion of particles in a turbulent flow is described by means of algebraic physics. The initial concepts are structurally ordered groupoids, algebras of observables, logically dependent on them, with couplings and the non-canonic transition between two Hamiltonians. The non-canonic transition leads to the substitution of time t by a new parameter. Its real counterpart gives the lower limit of the size of the time step in the differential equation of transfer, based on the semi-empirical image of turbulent diffusion.
Notes:
Резюме Двuженuе чaсmuц в mурбуленmно м mеченuu оnuсывaем сре¶rt;сmвaмu aл ебрauческоŭ фuзuкu. Исхо¶rt;нымu nоняmuямu являюmся сmрукmурно уnоря¶rt;оченные руnnоu¶rt;ы, ло uческu оm нuх зaвuсящuе aл ебры нaблю¶rt;aемых со связямu u некaнонuческuŭ nерехо¶rt; меж¶rt;у ¶rt;вумя aмuльmонuaнaмu. Некaнонuческuŭ nерехо¶rt; nрuво¶rt;um к зaмене временu t новым naрaмеmром. Е о ¶rt;еŭсmвumельныŭ aнaло оnре¶rt;еляеm нuжнюю рaнuцу временно о шa a в рaзносmном урaвненuм nереносa, оnuрaющемся нa nолуэмnuрuческое урaвненuе mурбуленmноŭ ¶rt;uффузuu.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01624761
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