3,447 research outputs found

    Carte de la Suisse

    No full text
    [Nicolas Tassin]Massstabsleiste: Lieues [5 = 23 mm]Aus: Mercure Suisse (1634), Simler, La république des Suisses (1639

    Carte générale des trèze cantons de Suisse, Vallay, ligues Grise, Maison-Dieu & Valteline

    No full text
    [Nicolas Tassin]Aus: "Description de tous les cantons, villes, bourge, villages et autres particularitez du pais des Suisses

    Carte de Hollande

    No full text
    Opvallend aan deze kaart van Holland is de merkwaardige vormgeving. De op het westen georiënteerde kaart toont voor het overgrote deel de Noordzee, terwijl de provincie Holland slechts een klein gedeelte aan de onderzijde inneemt. De provincie is bovendien niet eens in zijn geheel afgebeeld. Bij het drukproces is destijds het gedeelte rechtsboven met een stuk papier afgedekt geweest. Met behulp van een apart koperplaatje is toen daarna de titelcartouche afgedrukt. Vanwege het afdekken met een stuk papier is een deel van het toponiem 'Keysers plaet' weggevallen en staat er alleen 'Keyse'. Dat deze kaart zo'n eigenaardige constructie kent, heeft een logische reden. De kaart maakt namelijk onderdeel uit van een wandkaart van de Zeventien Provinciën en vormt daarin het rechter bovenblad. De titel van deze wandkaart luidt: 'Carte generale des Dix et Sept Provinces des Pays Bas'. Door de oorspronkelijke titelcartouche af te dekken en een nieuwe titelcartouche toe te voegen verkreeg men dus een afzonderlijke kaart van Holland. De kaart is gebaseerd op de kaart uit 1629 van Van Berckenrode (zie elders in deze collectie gedigitaliseerde kaarten van Holland en Utrecht), ofschoon de wegen ontbreken. Overeenkomsten zijn er tevens met de foliokaart 'Belgii sive Germaniæ Inferioris accuratissima tabula' uitgegeven door Henricus Hondius in 1631. De Beemster en Purmer zijn op de kaart als droogmakerij met verkaveling weergegeven; de Wormer als droogmakerij zonder verkaveling. De Schermer de de Waard vertonen zich nog als meren. De kaart werd in 1634 voor het eerst gepubliceerd in een Parijse atlas van Christophe Tassin, 'Les cartes generales de toutes les provinces de France [...]'. Later in 1637 in hetzelfde werk door Melchior Tavenier en in de periode 1640-1645 door Nicolas Berey

    La Suisse

    No full text
    [Nicolas Tassin]Massstabsleiste: Lieues [4 = 19 mm]Aus: Tassin, Cartes générales (1633), Tassin, Description de la Suisse (1635

    Castilla la Vieja. Mapas generales. 1633

    No full text
    Orientado con lis - Relieve con montes de perfilPertenece a: Cartes générales des provinces de France et d'Espagne, reveües, corrigées & augmentées par le sieur Tassin...Copia digital. Valladolid : Junta de Castilla y León. Consejería de Cultura y Turismo, 2009-201

    The North is another country. by Nicolas Rothwell

    No full text
    tag=1 data=The North is another country. by Nicolas Rothwell tag=2 data=Rothwell, Nicolas tag=3 data=Australian Magazine, tag=6 data=16/17 November 1996 tag=7 data=20-33. tag=8 data=NT%TOURISM tag=10 data=Worse, better, stranger, wilder, but above all different from the rest of the country. Continuing his journey of discovery across Australia's Top half the author stops over in Darwin to hear all the truths and whispers about the North. tag=11 data=1996/2/8 tag=12 data=96/0316 tag=13 data=CABWorse, better, stranger, wilder, but above all different from the rest of the country. Continuing his journey of discovery across Australia's Top half the author stops over in Darwin to hear all the truths and whispers about the North

    Experiments on the water entry and/or exit of a cone

    No full text
    International audienceWe report on recent experiments of water exit and combined water entry and exit. The water exit phenomenon refers to the lifting of a body initially floating at the water surface (pure exit) or to the lifting of a body just after a water entry phase (combined water entry and exit). Water exit is relevant to different fields of applications (e.g. marine and naval engineering, aeronautics, biomechanics) and is known for generating suction loads on structures. This work is the continuation of the first experiments presented in Tassin et al. (2017a) and Tassin et al. (2017b) dedicated to the water exit of flat plates. The experimental approach investigated previously is now extended to three-dimensional bodies such as a cone with a deadrise angle of 15 ◦ and to mock-ups of bigger scale (up to 50 cm diameter). In particular, the LED edge-lighting previously used to illuminate the contact line during the water exit of a transparent modified square plate has been adapted to the tracking of the contact line during the water exit of a transparent conical shell. New water exit experiments were also carried out with a circular disc of 40 cm diameter in order to study the influence of the body shape. We also performed combined water entry and exit experiments with a conical mock-up in order to investigate the performance of the LED edge-lighting technique for the tracking of the contact line during the entry stage. Following our previous work (see Tassin et al. (2017a)), the accuracy of the LED edge-lighting technique during cone water exit was assessed through comparison with experiments during which a draughtboard was placed at the bottom of the tank

    Experiments on the water entry and/or exit of a cone

    No full text
    International audienceWe report on recent experiments of water exit and combined water entry and exit. The water exit phenomenon refers to the lifting of a body initially floating at the water surface (pure exit) or to the lifting of a body just after a water entry phase (combined water entry and exit). Water exit is relevant to different fields of applications (e.g. marine and naval engineering, aeronautics, biomechanics) and is known for generating suction loads on structures. This work is the continuation of the first experiments presented in Tassin et al. (2017a) and Tassin et al. (2017b) dedicated to the water exit of flat plates. The experimental approach investigated previously is now extended to three-dimensional bodies such as a cone with a deadrise angle of 15 ◦ and to mock-ups of bigger scale (up to 50 cm diameter). In particular, the LED edge-lighting previously used to illuminate the contact line during the water exit of a transparent modified square plate has been adapted to the tracking of the contact line during the water exit of a transparent conical shell. New water exit experiments were also carried out with a circular disc of 40 cm diameter in order to study the influence of the body shape. We also performed combined water entry and exit experiments with a conical mock-up in order to investigate the performance of the LED edge-lighting technique for the tracking of the contact line during the entry stage. Following our previous work (see Tassin et al. (2017a)), the accuracy of the LED edge-lighting technique during cone water exit was assessed through comparison with experiments during which a draughtboard was placed at the bottom of the tank

    Experiments on the water entry and/or exit of a cone

    No full text
    International audienceWe report on recent experiments of water exit and combined water entry and exit. The water exit phenomenon refers to the lifting of a body initially floating at the water surface (pure exit) or to the lifting of a body just after a water entry phase (combined water entry and exit). Water exit is relevant to different fields of applications (e.g. marine and naval engineering, aeronautics, biomechanics) and is known for generating suction loads on structures. This work is the continuation of the first experiments presented in Tassin et al. (2017a) and Tassin et al. (2017b) dedicated to the water exit of flat plates. The experimental approach investigated previously is now extended to three-dimensional bodies such as a cone with a deadrise angle of 15 ◦ and to mock-ups of bigger scale (up to 50 cm diameter). In particular, the LED edge-lighting previously used to illuminate the contact line during the water exit of a transparent modified square plate has been adapted to the tracking of the contact line during the water exit of a transparent conical shell. New water exit experiments were also carried out with a circular disc of 40 cm diameter in order to study the influence of the body shape. We also performed combined water entry and exit experiments with a conical mock-up in order to investigate the performance of the LED edge-lighting technique for the tracking of the contact line during the entry stage. Following our previous work (see Tassin et al. (2017a)), the accuracy of the LED edge-lighting technique during cone water exit was assessed through comparison with experiments during which a draughtboard was placed at the bottom of the tank

    Grace S. Fong, Herself an Author : Gender, Agency, and Writing in Late Imperial China, 2008

    No full text
    Zufferey Nicolas. Grace S. Fong, Herself an Author : Gender, Agency, and Writing in Late Imperial China, 2008. In: Études chinoises, n°28, 2009. Numéro spécial sur le droit chinois. pp. 243-247
    corecore