6,015 research outputs found

    Nowack, A.

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    Robert & Louisa Nowack

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    Photograph of Robert and Louisa Nowack who were married in 1875 in Menominee, MI. In September, 1880, Robert opened a meat market in Waucedah. Later the Nowack's lived in Channing

    Der Führer in Weimar 1925 - 1938 : allen Volksgenossen Thüringens ein Dokument der großen Zeit Adolf Hitlers ; dem Führer ein Zeichen des Dankes für unseres Volkes Glück, das er uns gab / hrsg. von Gauleiter und Reichsstatthalter Fritz Sauckel. [Gesamtgestaltung und Text: Gaupresseamtsleiter Bruno Nowack]

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    DER FÜHRER IN WEIMAR 1925 - 1938 : ALLEN VOLKSGENOSSEN THÜRINGENS EIN DOKUMENT DER GROSSEN ZEIT ADOLF HITLERS ; DEM FÜHRER EIN ZEICHEN DES DANKES FÜR UNSERES VOLKES GLÜCK, DAS ER UNS GAB / HRSG. VON GAULEITER UND REICHSSTATTHALTER FRITZ SAUCKEL. [GESAMTGESTALTUNG UND TEXT: GAUPRESSEAMTSLEITER BRUNO NOWACK] Der Führer in Weimar 1925 - 1938 : allen Volksgenossen Thüringens ein Dokument der großen Zeit Adolf Hitlers ; dem Führer ein Zeichen des Dankes für unseres Volkes Glück, das er uns gab / hrsg. von Gauleiter und Reichsstatthalter Fritz Sauckel. [Gesamtgestaltung und Text: Gaupresseamtsleiter Bruno Nowack] (1) Cover (1) Titelseite (3) Fotografie: A. Hitler (4) Zum Geleit! (5) Weimar und die Bewegung ... (6) Der Führer und seine alten Kämpfer in Weimar (11) Der Gautag Thüringen 1938 (20) Gesamtgestaltung ... (86

    Self-monitoring : construction and validation of a German two-factor scale

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    Kammer D, Nowack W. Self-monitoring : construction and validation of a German two-factor scale. Bielefelder Arbeiten zur Sozialpsychologie, 104. Bielefeld: Univ. Bielefeld, Fakultät für Soziologie; 1983

    Tracking map track: the troubled story of Adige map by Ignaz von Nowack (1805)

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    Lo studio si focalizza sulle dinamiche di produzione e sulle vicende archivistiche della cartografia asburgica imperial-regia, caratterizzata da un lato da una vasta produzione topografico-militare, dall'altro da quella catastale. In questa nota ci si concentrerà però su alcune mappe che potrebbero definirsi una produzione “altra”, non strettamente topografica o catastale ma a queste intimamente correlata, sia da un punto di vista temporale che sulla base dell'analisi del contenuto e dei caratteri tecnico–formali. L'approccio comparativo permette di confrontare la mappa del Nowack con le “altre" mappe del Nowack, copie o stralci, conservate in diversi archivi, al fine di stabilire se si tratti dello stesso rilievo e della stessa incisione. Ma un siffatto approccio permette anche di comparare tale mappa con altre cartografie decisamente più note. La mappa dell'Adige del Nowack (1802-1805), si inserisce infatti (temporalmente e spazialmente) tra il rilevo topografico del Ducato di Venezia del Von Zach (1798–1805) e quello del Tirolo asburgico del Lutz (1806), i primi e più estesi rilievi topografici imperiali dei territori trentini, veneti e friulani. La mappa del Nowack però, oltre ad inserirsi nel periodo storico della vasta mappatura dei territori imperiali, del “sud della Mitteleuropa”, rimanda, per scala e contenuti tecnico-formali, anche al successivo catasto asburgico ottocentesco.Historical cartography and archives represent a powerful relationship and a tool for an applied historical geography. Archives let to reconstruct the past landscapes and territorial planning, through “technical" historical maps that one can find. Habsburgic Tirolo historical maps have an important focus on river network, notably on Adige/Hetsch but nevertheless about Fersina, Avisio and Noce. This paper analyses as a main case-study a fine-scale historical map: the hydrological-economic map of Adige by Ignaz von Nowack of 1805 (currently stored at Kriegsarchiv in Vienna). With a comparative cartography approach it uill be studied also a short-listed number of others Nouack-based maps, copies, partial fragments or, in general, different versions of this Habsburg historical maps of Trentino and Sudtirol, nowadays stored in different archives throughout the Mitteleuropa. This in order to put clearly this “other" map among contemporary (first half of XIX cent.) well-known historical topographic maps (i.e. Von Zach map, Lutz map) of the same region

    Data in support of 'Observational evidence that cloud feedback amplifies global warming'

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    Pre-processed data for historical period Ridge regressions, supporting the publication by Ceppi and Nowack in PNAS (2021).For a code example see https://github.com/peernow/PNAS2021</div

    Framework for human health characterization factor calculation of tio2 nanoparticles

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    The widespread use of engineered nanoparticles (ENPs) in various industrial applications is leading inevitably to releases of these materials into the environment, increasing like this human and environmental exposure to these substances, and is getting consequently more and more a concern regarding their potential adverse effects on both, the environment and the human health. In this context, Life Cycle Assessment (LCA) is recognized as one of the key methods for the assessment of the environmental performance of products containing such ENPs. However, so far, factors to assess releases of ENPs into the environment have been still completely missing, making all LCA studies of such materials incomplete. For this, a clear toxicological characterization of the effects is a prerequisite in order to establish trustworthy characterization factor (CFs) for release of nanoparticles into the environment. Humans could potentially be exposed to ENPs releases along the whole life cycle (i.e. during manufacture, handling, use and disposal treatment of ENPs). Therefore, this work aims to provide a methodological framework for establishing human health CFs for releases of ENPs, using titanium dioxide nanoparticles (TiO2-NPs) as an exemplary example. Starting point for this is USEtox, the internationally recognized consensus model for the assessment of toxicity within LCA studies. USEtox calculates the impact on human toxicity as product of emission, intake fractions (iF) and effect factors (EF). The intake fraction is originally defined as ratio of the mass intake by an individual over the mass released to the environment. The effect factor on the other hand contemplates the change in life time disease probability due to change in life time intake of a pollutant. Both effects, i.e. carcinogens and non-carcinogens, are taken into account in the calculation of the actual EF: • the EF for carcinogens effects is determined based on a benchmark dose used by the National Institute for Occupational Safety and Health (NIOSH) to determinate the recommended occupational exposure limit (REL) for TiO2-NPs; • the EF for non-carcinogens effects is calculated based on NOAEL (no-observed adverse effect level) and LOAEL (lowest observed adverse effect level) values. Limiting the examinations here on releases to air as only investigated compartment, a one-box model using steady-state conditions and direct human exposure can be applied for the calculation of the intake fractions. Here, intake fractions for indoor and outdoor conditions have been calculated for TiO2-NPs. While indoor iF, a complete mixing for the volume and the indoor volume per workers for the Chemical industry in Switzerland have been evaluated. For the outdoor iF, the fate factor matrix has been calculated by applying the SimpleBox4Nano (SB4N) multimedia modelling developed by Meesters and co-author. Thanks to this model it is possible to obtain transport and removal rates constants for ENPs in and across air, rain, surface water, soil and sediment compartments, taking into account various input parameters (i.e. radius, mass density, aggregation and attachement efficiency of TiO2-NPs) and systemic dimensions (area, height and volume for each compartments). Again, based on the study by Mueller and Nowack, the scenario is focusing on Switzerland as geographical area
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