196,422 research outputs found

    Le tombeau d’Osiris. Réponse à l'article de M. Loret

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    Amelineau Émile. Le tombeau d’Osiris. Réponse à l'article de M. Loret . In: Sphinx : revue critique embrassant le domaine entier de l'égyptologie, vol. 5, 1902. pp. 234-246

    Éloge funèbre de M. Victor Loret, correspondant de l'Académie

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    Halphen Louis. Éloge funèbre de M. Victor Loret, correspondant de l'Académie. In: Comptes rendus des séances de l'Académie des Inscriptions et Belles-Lettres, 90ᵉ année, N. 1, 1946. pp. 113-118

    Éloge funèbre de M. Victor Loret, correspondant de l'Académie

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    Halphen Louis. Éloge funèbre de M. Victor Loret, correspondant de l'Académie. In: Comptes rendus des séances de l'Académie des Inscriptions et Belles-Lettres, 90ᵉ année, N. 1, 1946. pp. 113-118

    Spatial analysis of the increasing urbanization trend in the Frascati wine designation of origin (DOC) area: a geostatistical approach

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    This work refers to the design, test and implementation of an estimation index useful to describe cultivated areas reduction in a sub-urban context. The index is based on the historical analysis of the interference between urban development and agricultural activities, and it uses geostatistical methods. The necessary data to implement the index has been derived from heterogeneous sources covering a period of about 10 years (1996 to 2005). Joint use of optical satellite images at high/very high spatial resolution and numerical cartographic data has been essential. More in detail, the index has been tested in the estimation of land use changes for the period of 2005 to 2008 in the study area. Results have been verified through a very-highresolution (VHR) Kompsat 2 satellite image acquired in 2008

    Victor Loret egyiptológus és II. Amenhotep sírjának felfedezése / The Egyptologist Victor Loret and the discovery of the tomb of Amenhotep II

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    Presentazione della scoperta della tomba del faraone Amenhotep II da parte di Victor Loret, attraverso documenti conservati negli archivi di Egittologia dell'Università degli Studi di Milano e altre fonti. Saggio in ungherese e in inglese

    Articular cartilage with intra and extrafibrillar waters - Simulations of mechanical and chemical loadings by the finite element method

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    In line with previous constitutive developments, a three-phase multi-species electro-chemo-mechanical model of articular cartilage that accounts for the effect of two water compartments is pursued. Here, a finite element formulation is presented in order to solve initial and boundary value problems and to simulate the time and space heterogenous fields generated by mechanical and chemical loadings in laboratory samples. The formulation capitalizes upon (1) the chemo-mechanical model in Loret and Simoes [B. Loret, F.M.F. Simoes, Articular cartilage with intra- and extra-fibrillar waters. A chemo-mechanical model, Mech. Mater. 36 (5-6) (2004) 515-541; B. Loret, F.M.F. Simoes, Mechanical effects of ionic replacements in articular cartilage. I. The constitutive model, Biomech. Model. Mechanobiol. 4 (2-3) (2005) 63-80; Mechanical effects of ionic replacements in articular cartilage. II. Simulations of successive substitutions of NaCl and CaCl2, Biomech. Model. Mechanobiol. 4 (2-3) (2005) 81-99] which was restricted to successive equilibria, and from which both time and space were excluded; and (2) the model in Loret and Simoes (B. Loret, F.M.F. Simoes, Articular cartilage with intra- and extra-fibrillar waters. Mass transfer and generalized diffusion, Eur. J. Mech.-A/Solids 26 (1995) 759-788], where the equations of mass transfer between the two fluid phases and the generalized diffusion equations in the extrafibrillar phase have been established. A thin cartilage layer, laterally confined, is loaded through time varying mechanical and chemical conditions applied on the lower and upper boundaries. Two types of chemical loadings are simulated. First the concentration of NaCl in the bath in contact with the cartilage is changed according to several time schemes, including in particular free swelling and cyclic changes. A more complex process consists in replacing NaCl by CaCl2. Chemical loading gives rise to heterogeneous fields during a transient period, whose extend depends on geometry and on a number of characteristic material properties, e.g. Darcy's seepage time, Fick's diffusion time, and typical times for intercompartmental mass transfer. Mechanical confined compression and swelling tests are simulated as well. Spatial profiles of the various chemical species and mechanical, chemical and electrical entities highlight the influences of the existence of two water compartments. At steady state, the strains, stresses, pressures and the distribution of water and ions in the two compartments obtained in Loret and Simoes [B. Loret, F.M.F. Simoes, Articular cartilage with intra- and extra-fibrillar waters. A chemo-mechanical model, Mech. Mater. 36 (5-6) (2004) 515-541; B. Loret, F.M.F. Simoes, Mechanical effects of ionic replacements in articular cartilage. I. The constitutive model, Biomech. Model. Mechanobiol. 4 (2-3) (2005) 63-80; Mechanical effects of ionic replacements in articular cartilage. II. Simulations of successive substitutions of NaCl and CaCl2, Biomech. Model. Mechanobiol. 4 (2-3) (2005) 81-99] are recovered. (c) 2008 Elsevier B.V. All rights reserved

    Observations critiques sommaires sur plusieurs plantes montpelliéraines ([Reprod.]) / par M. H. Loret

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    Appartient à l’ensemble documentaire : LangRous

    Dr. Duane M. Jackson, Morehouse College, July 2011

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    This video is a conversation with Dr. Duane M. Jackson. Dr. Jackson talks about his paper, "Recall and the Serial Position Effect: The Role of Primacy and Recency on Accounting Students' Performance." Jackie Daniel, AUC Woodruff Library, is the interviewer
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