749 research outputs found

    Sravnitelʹnai︠a︡ statistika T︠S︡arstva Polʹskago i drugikh evropeĭskikh stran /

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    No more published.Includes bibliographical references.t. 1. Istorii︠a︡ statistiki s XVI stoli︠e︡tii︠a︡. Glavnye periody v dvizhenii narodonaselenii︠a︡. Braki v Evropi︠e︡ i T︠S︡arstvi︠e︡ polʹskom, v svi︠a︡zi s uslovii︠a︡mi narodnago blagosostoi︠a︡nii︠a︡. Znachenie krestʹi︠a︡nskikh reform v T︠S︡arstvi︠e︡ Polʹskom, sravnitelʹno s Poznanʹi︠u︡ i Galit︠s︡ieĭ. Ot︠s︡i︠e︡nka znachenii︠a︡ ikh, s tochki zri︠e︡nii︠a︡ zadach prezhneĭ polʹskoĭ t︠s︡ivilizat︠s︡ii.Mode of access: Internet

    Komentovaný překlad: KOČÍ, Josef. Čarodějnické procesy: z dějin inkvizice a čarodějnických procesů v českých zemích v 16. a 18. století / Josef Kočí ; doslov: Jiří Loukotka

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    Tato bakalářká práce se skládá ze dvou částí. První část představuje překlad kapitoly z knihy Josefa Kočího Čarodějnické procesy: z dějin inkvizice a čarodějnických procesů v českých zemích v 16. a 18. století (s. 149-169) do ruštiny. Druhá část obsahuje komentář k překladu rozdělený na následující kapitoly: Analýza překladu, Typologie překladatelských problémů a jejich řešení, Překladatelské posuny. Powered by TCPDF (www.tcpdf.org)This bachelor thesis consists of two parts: the first part is a Russian translation of a chapter from the book Čarodějnické procesy: z dějin inkvizice a čarodějnických procesů v českých zemích v 16. a 18. století (pp 149-169) written by Josef Kočí. The second part contains a commentary on the translation and includes the following chapters: Analysis of the source text, Typology of translation problems and their solutions, Translation shifts. Powered by TCPDF (www.tcpdf.org)Institute of Translation StudiesÚstav translatologieFilozofická fakultaFaculty of Art

    Silk Road Art and Archaeology, 8, (2002), 272 p.

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    Ce numéro de SRAA est une nouvelle fois largement consacré aux études iraniennes et centre-asiatiques : – A. V. Simonenko, « Sarmatian relics of the ‘Eastern Wave’ in the North Pontic Region », pp. 1-28, analyse le passage de la période sarmate précoce à la période sarmate moyenne au nord de la mer Noire en reprenant l’ensemble des données disponibles et notamment les caractères locaux ou intrusifs (« eastern wave ») présents sur les sites du 1er et 2e s. de n.è. – E. Errington, « Numismatic ..

    Measurement of the production and differential cross sections of W+W- bosons in association with jets in pp¯ collisions at ?s = 1.96TeV

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    Citation: Aaltonen, T., Amerio, S., Amidei, D., Anastassov, A., Annovi, A., Antos, J., . . . Zucchelli, S. (2015). Measurement of the production and differential cross sections of W+W- bosons in association with jets in pp¯ collisions at ?s = 1.96TeV. Physical Review D - Particles, Fields, Gravitation and Cosmology, 91(11). doi:10.1103/PhysRevD.91.111101We present a measurement of the W-boson-pair production cross section in pp¯ collisions at 1.96 TeV center-of-mass energy and the first measurement of the differential cross section as a function of jet multiplicity and leading-jet energy. The W+W- cross section is measured in the final state comprising two charged leptons and neutrinos, where either charged lepton can be an electron or a muon. Using data collected by the CDF experiment corresponding to 9.7fb-1 of integrated luminosity, a total of 3027 collision events consistent with W+W- production are observed with an estimated background contribution of 1790 ± 190 events. The measured total cross section is ?(pp¯ ? W+W-)= 14.0 ± 0.6 (stat)-1.0+1.2 (syst) ± 0.8 (lumi) pb, consistent with the standard model prediction. © 2015; American Physical Society. All righs reserved.Additional Authors: Badgett, W.;Bae, T.;Barbaro-Galtieri, A.;Barnes, V. E.;Barnett, B. A.;Barria, P.;Bartos, P.;Bauce, M.;Bedeschi, F.;Behari, S.;Bellettini, G.;Bellinger, J.;Benjamin, D.;Beretvas, A.;Bhatti, A.;Bland, K. R.;Blumenfeld, B.;Bocci, A.;Bodek, A.;Bortoletto, D.;Boudreau, J.;Boveia, A.;Brigliadori, L.;Bromberg, C.;Brucken, E.;Budagov, J.;Budd, H. S.;Burkett, K.;Busetto, G.;Bussey, P.;Butti, P.;Buzatu, A.;Calamba, A.;Camarda, S.;Campanelli, M.;Canelli, F.;Carls, B.;Carlsmith, D.;Carosi, R.;Carrillo, S.;Casal, B.;Casarsa, M.;Castro, A.;Catastini, P.;Cauz, D.;Cavaliere, V.;Cerri, A.;Cerrito, L.;Chen, Y. C.;Chertok, M.;Chiarelli, G.;Chlachidze, G.;Cho, K.;Chokheli, D.;Clark, A.;Clarke, C.;Convery, M. E.;Conway, J.;Corbo, M.;Cordelli, M.;Cox, C. A.;Cox, D. J.;Cremonesi, M.;Cruz, D.;Cuevas, J.;Culbertson, R.;D'Ascenzo, N.;Datta, M.;De Barbaro, P.;Demortier, L.;Deninno, M.;D'Errico, M.;Devoto, F.;Di Canto, A.;Di Ruzza, B.;Dittmann, J. R.;Donati, S.;D'Onofrio, M.;Dorigo, M.;Driutti, A.;Ebina, K.;Edgar, R.;Elagin, A.;Erbacher, R.;Errede, S.;Esham, B.;Farrington, S.;Fernández Ramos, J. P.;Field, R.;Flanagan, G.;Forrest, R.;Franklin, M.;Freeman, J. C.;Frisch, H.;Funakoshi, Y.;Galloni, C.;Garfinkel, A. F.;Garosi, P.;Gerberich, H.;Gerchtein, E.;Giagu, S.;Giakoumopoulou, V.;Gibson, K.;Ginsburg, C. M.;Giokaris, N.;Giromini, P.;Glagolev, V.;Glenzinski, D.;Gold, M.;Goldin, D.;Golossanov, A.;Gomez, G.;Gomez-Ceballos, G.;Goncharov, M.;González López, O.;Gorelov, I.;Goshaw, A. T.;Goulianos, K.;Gramellini, E.;Grosso-Pilcher, C.;Group, R. C.;Guimaraes Da Costa, J.;Hahn, S. R.;Han, J. Y.;Happacher, F.;Hara, K.;Hare, M.;Harr, R. F.;Harrington-Taber, T.;Hatakeyama, K.;Hays, C.;Heinrich, J.;Herndon, M.;Hocker, A.;Hong, Z.;Hopkins, W.;Hou, S.;Hughes, R. E.;Husemann, U.;Hussein, M.;Huston, J.;Introzzi, G.;Iori, M.;Ivanov, A.;James, E.;Jang, D.;Jayatilaka, B.;Jeon, E. J.;Jindariani, S.;Jones, M.;Joo, K. K.;Jun, S. Y.;Junk, T. R.;Kambeitz, M.;Kamon, T.;Karchin, P. E.;Kasmi, A.;Kato, Y.;Ketchum, W.;Keung, J.;Kilminster, B.;Kim, D. H.;Kim, H. S.;Kim, J. E.;Kim, M. J.;Kim, S. H.;Kim, S. B.;Kim, Y. J.;Kim, Y. K.;Kimura, N.;Kirby, M.;Knoepfel, K.;Kondo, K.;Kong, D. J.;Konigsberg, J.;Kotwal, A. V.;Kreps, M.;Kroll, J.;Kruse, M.;Kuhr, T.;Kurata, M.;Laasanen, A. T.;Lammel, S.;Lancaster, M.;Lannon, K.;Latino, G.;Lee, H. S.;Lee, J. S.;Leo, S.;Leone, S.;Lewis, J. D.;Limosani, A.;Lipeles, E.;Lister, A.;Liu, H.;Liu, Q.;Liu, T.;Lockwitz, S.;Loginov, A.;Lucchesi, D.;Lucà, A.;Lueck, J.;Lujan, P.;Lukens, P.;Lungu, G.;Lys, J.;Lysak, R.;Madrak, R.;Maestro, P.;Malik, S.;Manca, G.;Manousakis-Katsikakis, A.;Marchese, L.;Margaroli, F.;Marino, P.;Matera, K.;Mattson, M. E.;Mazzacane, A.;Mazzanti, P.;McNulty, R.;Mehta, A.;Mehtala, P.;Mesropian, C.;Miao, T.;Mietlicki, D.;Mitra, A.;Miyake, H.;Moed, S.;Moggi, N.;Moon, C. S.;Moore, R.;Morello, M. J.;Mukherjee, A.;Muller, Th;Murat, P.;Mussini, M.;Nachtman, J.;Nagai, Y.;Naganoma, J.;Nakano, I.;Napier, A.;Nett, J.;Neu, C.;Nigmanov, T.;Nodulman, L.;Noh, S. Y.;Norniella, O.;Oakes, L.;Oh, S. H.;Oh, Y. D.;Oksuzian, I.;Okusawa, T.;Orava, R.;Ortolan, L.;Pagliarone, C.;Palencia, E.;Palni, P.;Papadimitriou, V.;Parker, W.;Pauletta, G.;Paulini, M.;Paus, C.;Phillips, T. J.;Piacentino, G.;Pianori, E.;Pilot, J.;Pitts, K.;Plager, C.;Pondrom, L.;Poprocki, S.;Potamianos, K.;Pranko, A.;Prokoshin, F.;Ptohos, F.;Punzi, G.;Redondo Fernández, I.;Renton, P.;Rescigno, M.;Rimondi, F.;Ristori, L.;Robson, A.;Rodriguez, T.;Rolli, S.;Ronzani, M.;Roser, R.;Rosner, J. L.;Ruffini, F.;Ruiz, A.;Russ, J.;Rusu, V.;Sakumoto, W. K.;Sakurai, Y.;Santi, L.;Sato, K.;Saveliev, V.;Savoy-Navarro, A.;Schlabach, P.;Schmidt, E. E.;Schwarz, T.;Scodellaro, L.;Scuri, F.;Seidel, S.;Seiya, Y.;Semenov, A.;Sforza, F.;Shalhout, S. Z.;Shears, T.;Shepard, P. F.;Shimojima, M.;Shochet, M.;Shreyber-Tecker, I.;Simonenko, A.;Sliwa, K.;Smith, J. R.;Snider, F. D.;Song, H.;Sorin, V.;St. Denis, R.;Stancari, M.;Stentz, D.;Strologas, J.;Sudo, Y.;Sukhanov, A.;Suslov, I.;Takemasa, K.;Takeuchi, Y.;Tang, J.;Tecchio, M.;Teng, P. K.;Thom, J.;Thomson, E.;Thukral, V.;Toback, D.;Tokar, S.;Tollefson, K.;Tomura, T.;Tonelli, D.;Torre, S.;Torretta, D.;Totaro, P.;Trovato, M.;Ukegawa, F.;Uozumi, S.;Vázquez, F.;Velev, G.;Vellidis, C.;Vernieri, C.;Vidal, M.;Vilar, R.;Vizán, J.;Vogel, M.;Volpi, G.;Wagner, P.;Wallny, R.;Wang, S. M.;Waters, D.;Wester W.C, III;Whiteson, D.;Wicklund, A. B.;Wilbur, S.;Williams, H. H.;Wilson, J. S.;Wilson, P.;Winer, B. L.;Wittich, P.;Wolbers, S.;Wolfe, H.;Wright, T.;Wu, X.;Wu, Z.;Yamamoto, K.;Yamato, D.;Yang, T.;Yang, U. K.;Yang, Y. C.;Yao, W. M.;Yeh, G. P.;Yi, K.;Yoh, J.;Yorita, K.;Yoshida, T.;Yu, G. B.;Yu, I.;Zanetti, A. M.;Zeng, Y.;Zhou, C.;Zucchelli, S

    The Linkage of the Different Distinct Great Volcanic Eruptions of the Thera (Santorini) in the Range (1700·1450 ±14) BC and the Related Subsequent Intensifications of the Global Seismicity and Volcanic Activity in the End of the 19TH Century and

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    The article presents the development of the cosmic geophysics (representing the deterministic the rmohydrogravi dynamic theory based on the authors generalized differential formulation of the first law of thermodynamics)  by taking into account the non-stationary energy gravitational influences on the Earth of the Sun (owing to the gravitational interaction of the Sun with the outer large planets) along with the non-stationary energy gravitational influences of the system Sun-Moon, the Venus, the Mars and the Jupiter.The author presents the evidence of the founded ranges of the fundamental global seismotectonic, volcanic and climatic periodicities () years and  () years (determined by the combined predominant non-stationary energy gravitational influences on the Earth of the system Sun-Moon, the Venus, the Mars, the Jupiter and the Sun owing to the gravitational interactions of the Sun with the Jupiter and the Saturn) based on the established links between the different distinct great eruptions of the Thera (Santorini) in the range (1700·1450 ±14) BC and the subsequent intensifications of the global seismicity and volcanic activity in the end of the 19th  century and in the beginning of the 20th century, in the end of the 20th century, and in the beginning of the 21st century AD

    Fundamentals of the Thermohydrogravidynamic Theory of the Global Seismotectonic Activity of the Earth

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    The article presents the fundamentals of the cosmic geophysics (representing the deterministic thermohydrogravidynamic theory intended for earthquakes prediction) based on the author's generalized differential formulation of the first law of thermodynamics extending the classical Gibbs' formulation by taking into account (along with the classical infinitesimal change of heat δQ and the classical infinitesimal change of the internal energy dUτ) the infinitesimal increment of the macroscopic kinetic energy dKτ, the infinitesimal increment of the gravitational potential energy dπτ, the generalized expression for the infinitesimal work δAnp,∂τ done by the nonpotential terrestrial stress forces (determined by the symmetric stress tensor T) acting on the boundary of the continuum region τ, and the infinitesimal increment dG of energy due to the cosmic and terrestrial nonstationary energy gravitational influence on the continuum region τ during the infinitesimal time dt. Based on the established generalized differential formulation of the first law of thermodynamics, the author explains the founded cosmic energy gravitational genesis of the strong Chinese 2008 and the strong Japanese 2011 earthquakes

    Microplotter-Printed On-Chip Combinatorial Library of Ink-Derived Multiple Metal Oxides as an "electronic Olfaction" Unit

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    Information about the surrounding atmosphere at a real timescale significantly relies on available gas sensors to be efficiently combined into multisensor arrays as electronic olfaction units. However, the array's performance is challenged by the ability to provide orthogonal responses from the employed sensors at a reasonable cost. This issue becomes more demanded when the arrays are designed under an on-chip paradigm to meet a number of emerging calls either in the internet-of-things industry or in situ noninvasive diagnostics of human breath, to name a few, for small-sized low-powered detectors. The recent advances in additive manufacturing provide a solid top-down background to develop such chip-based gas-analytical systems under low-cost technology protocols. Here, we employ hydrolytically active heteroligand complexes of metals as ink components for microplotter patterning a multioxide combinatorial library of chemiresistive type at a single chip equipped with multiple electrodes. To primarily test the performance of such a multisensor array, various semiconducting oxides of the p- and n-conductance origins based on pristine and mixed nanocrystalline MnOx, TiO2, ZrO2, CeO2, ZnO, Cr2O3, Co3O4, and SnO2 thin films, of up to 70 nm thick, have been printed over hundred μm areas and their micronanostructure and fabrication conditions are thoroughly assessed. The developed multioxide library is shown to deliver at a range of operating temperatures, up to 400 °C, highly sensitive and highly selective vector signals to different, but chemically akin, alcohol vapors (methanol, ethanol, isopropanol, and n-butanol) as examples at low ppm concentrations when mixed with air. The suggested approach provides us a promising way to achieve cost-effective and well-performed electronic olfaction devices matured from the diverse chemiresistive responses of the printed nanocrystalline oxides

    ДЕЯКІ ПИТАННЯ ВСТАНОВЛЕННЯ ПРИЧИН ТЕХНІЧНИХ ПОШКОДЖЕНЬ МАЙНА ТА ВИЗНАЧЕННЯ МАТЕРІАЛЬНОЇ ШКОДИ ВНАСЛІДОК ЗАЛИТТЯ

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    According to the Resolution of Plenum of the Supreme Court of Ukraine of 27. 03. 1992 № 6 «About practice of consideration by courts of civil cases on claims for compensation of harm» , considering claims for compensation of harm, courts are guided by that the harm caused to the person and property of the citizen is subject to compensation in full by the person which caused it, provided that actions of the last were illegal, between them and damage is the direct causal connection and there are wines of the specified person The article presents some of the problematic issues that arise in the study of the causes of technical damage to property and the definition of material damage as a result of flooding. The relevance of the subject of the article, which is emphasized by the availability of appropriate techniques developed by specialists of state specialized institutions, in particular, forensic experts of the Kyiv research Institute of forensic examinations and the Odessa research Institute of forensic examinations. The definition of the current legislation on material damage is given. The article also points to the need to establish an appropriate defendant in civil disputes that arise when considering material damage, in accordance with the current provisions on the maintenance and maintenance of the housing stock. Fixing of damages is carried out by means of the act of pouring, full-scale inspection, photo fixation. A comprehensive study of the initial data during the survey allows us to provide a clear, impartial opinion on the technical causes of damage and material losses due to flooding. The above information can be used in judicial construction and technical expertise on technical causes of damage and material damage due to flooding.В статье приведены некоторые проблемные вопросы, которые возникают при проведении исследований причин технических повреждений имущества и определения материального ущерба в результате залития. Отмечена актуальность тематики статьи, которая подчеркивается наличием соответствующих методик разработанных специалистами государственных специализированных учреждений, в частности, судебными экспертами Киевского научно-исследовательского института судебных экспертиз и Одесского научно-исследовательского института судебных экспертиз. Приведено определение действующего законодательства относительно материального ущерба. В статье также указывается на необходимость установления надлежащего ответчика в гражданских спорах, которые возникают при рассмотрении вопросов материального ущерба, согласно действующих положений о содержании и обслуживании жилищного фонда. Фиксация повреждений осуществляется с помощью акта о заливке, натурного обследования, фотофиксации.У статті наведено деякі проблемні питання, що виникають при проведенні досліджень причин технічних пошкоджень майна та визначення матеріальної шкоди внаслідок залиття. Зазначено про актуальність тематики статті, що підкреслюється наявністю відповідних методик, що були розроблені фахівцями державних спеціалізованих установ, зокрема, судовими експертами Київського науково-дослідного інституту судових експертиз та Одеського науково-дослідного інституту судових експертиз. Приведено визначення чинного законодавства щодо матеріальної шкоди. У статті також значиться про необхідність встановлення належного відповідача у цивільних спорах, що виникають при розгляді питань матеріальної шкоди, згідно з діючими  положеннями про утримання та обслуговування житлового фонду. Фіксація пошкоджень здійснюється за допомогою акту про залиття, натурного обстеження, фотофіксації
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