6 resultados para Mesures agroenvironnementales
em CentAUR: Central Archive University of Reading - UK
Resumo:
In a vault on the outskirts of Paris, a cylinder of platinum-iridium sits in a safe under three layers of glass. It is the kilogram, kept by the Bureau International des Poids et Mesures (BIPM), which is the international home of metrology. Metrology is the science of measurement, and it is of fundamental importance to us all. It is essential for trade, commerce, navigation, transport, communication, surveying, engineering, and construction. It is essential for medical diagnosis and treatment, health and safety, food and consumer protection, and for preserving the environment—e.g., measuring ozone in the atmosphere. Many of these applications are of particular relevance to chemistry and thus to IUPAC. In all these activities we need to make measurements reliably—to an appropriate and known level of uncertainty. The financial implications of metrology are enormous. In the United States, for example, some 15% of the gross domestic product is spent on healthcare, involving reliable quantitative measurements for both diagnosis and treatment.
Resumo:
The Bureau International des Poids et Mesures, the BIPM, was established by Article 1 of the Convention du Mètre, on 20 May 1875, and is charged with providing the basis for a single, coherent system of measurements to be used throughout the world. The decimal metric system, dating from the time of the French Revolution, was based on the metre and the kilogram. Under the terms of the 1875 Convention, new international prototypes of the metre and kilogram were made and formally adopted by the first Conférence Générale des Poids et Mesures (CGPM) in 1889. Over time this system developed, so that it now includes seven base units. In 1960 it was decided at the 11th CGPM that it should be called the Système International d’Unités, the SI (in English: the International System of Units). The SI is not static but evolves to match the world’s increasingly demanding requirements for measurements at all levels of precision and in all areas of science, technology, and human endeavour. This document is a summary of the SI Brochure, a publication of the BIPM which is a statement of the current status of the SI. The seven base units of the SI, listed in Table 1, provide the reference used to define all the measurement units of the International System. As science advances, and methods of measurement are refined, their definitions have to be revised. The more accurate the measurements, the greater the care required in the realization of the units of measurement.
Resumo:
We need a new definition for the kilogram! The present definition was sanctioned by the first General Conference on Weights and Measures (CGPM, Conférence Général des Poids et Mesures) in 1889, with a minor revision to the words in 1901, and remains unchanged after 116 years. It is the only base unit of the International System of Units (the SI) that is still defined in terms of a prototype artifact, the International Prototype of the Kilogram (IPK), which is kept in a safe at the International Bureau of Weights and Measures (the BIPM, Bureau International des Poids et Mesures) in Sèvres, near Paris.
Resumo:
We review the proposal of the International Committee for Weights and Measures (Comité International des Poids et Mesures, CIPM), currently being considered by the General Conference on Weights and Measures (Conférences Générales des Poids et Mesures, CGPM), to revise the International System of Units (Le Système International d’Unitès, SI). The proposal includes new definitions for four of the seven base units of the SI, and a new form of words to present the definitions of all the units. The objective of the proposed changes is to adopt definitions referenced to constants of nature, taken in the widest sense, so that the definitions may be based on what are believed to be true invariants. In particular, whereas in the current SI the kilogram, ampere, kelvin and mole are linked to exact numerical values of the mass of the international prototype of the kilogram, the magnetic constant (permeability of vacuum), the triple-point temperature of water and the molar mass of carbon-12, respectively, in the new SI these units are linked to exact numerical values of the Planck constant, the elementary charge, the Boltzmann constant and the Avogadro constant, respectively. The new wording used expresses the definitions in a simple and unambiguous manner without the need for the distinction between base and derived units. The importance of relations among the fundamental constants to the definitions, and the importance of establishing a mise en pratique for the realization of each definition, are also discussed.
Resumo:
Plus de 517 000 tonnes de bombes sont déversées sur l’Hexagone par les alliés entre 1940 et 1945, soit près de sept fois plus que le total largué sur le Royaume-Uni par la Luftwaffe. Plus de 57 000 Français en sont morts, dont plus de 38 000 au cours de la seule année 1944. Cet aspect fondamental de l’histoire des années noires, que les survivants et les familles des victimes ne connaissent que trop bien, et qui a fait l’objet de nombreuses études locales, est encore relativement marginalisé de la « grande histoire » de l’Occupation et de la Libération. Pourquoi et comment les armées aériennes alliées ont-ils attaqué la France ? Quelles mesures ont été prises par le gouvernement de Vichy pour protéger les populations ? Comment les Alliés ont-ils justifié les attaques auprès des Français, et comment la propagande vichyssoise a-t-elle essayé de les mettre à profit ? Comment les populations civiles ont-ils vécu les bombardements, et comment se sont-elles mobilisées pour se défendre ? Comment la Résistance a-t-elle réagi à des attaques qui ne pouvaient que nuire à son audience au sein des Français, ainsi qu’à celle des « Anglo-saxons » ? Autant de questions auxquelles l’ouvrage comme le documentaire répondent, avec l’appui de documents d’archives britanniques et françaises, mais aussi de témoignages nombreux et émouvants.