Systeme International - definition. What is Systeme International
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%ما هو (من)٪ 1 - تعريف

SYSTEM OF UNITS, BASED ON THE INTERNATIONAL SYSTEM OF QUANTITIES, THEIR NAMES AND SYMBOLS, INCLUDING A SERIES OF PREFIXES AND THEIR NAMES AND SYMBOLS, TOGETHER WITH RULES FOR THEIR USE (INTERNATIONAL VOCABULARY OF METROLOGY)
SI unit; SI Unit; SI units; Système International d'Unités; Système International; Systeme International; International system of units; Métrique Système International; Systeme international unit; Systeme International d'Unites; S.I.; Dimensions of units; SI Units; Si system; SI system; SI; SI multiple; S.I. system; Systeme International d'Unités; International System of Measurements; Système international d'unités; International System of Units (SI); Si units; The International System of Units; System International; International Systems of Units; Le Système International d'Unités; Metrique Systeme International; Le Systeme International d'Unites; Systeme international d'unites; Unit names; SI Unit Prefixes; SI-prefix; Systeme Internationale; Système Internationalle; S.i.; S I; Système international; Introduction to the metric system; Systeme Internationalle; SI-unit; Modern metric system; International Systems of Units (SI); List of SI prefixes; List of SI system prefixes; Metric system prefix; Metric system prefixes; SI system prefix; SI system prefixes; History of the International System of Units; SI unit symbols and values of quantities; Unit name (SI); Systeme International d'unites; Systeme International d'unities; SI system of units; ISO units; ISO unit; SI brochure; Old SI; Old SI definitions; System of International Units; SI Brochure; SI 1960; SI (1960); 1960 SI; International System of Units 1960; Le Système International d'Unités 1960; International System of Units (1960); Le Système International d'Unités (1960); 1960 International System of Units; 1960 Le Système International d'Unités; SI standard; SI multiples; Système International d’Unités; Systéme international
  • In the expression of acceleration due to gravity, a space separates the value and the units, both the 'm' and the 's' are lowercase because neither the metre nor the second are named after people, and exponentiation is represented with a [[superscript]] '2'.
  • access-date=7 January 2013}}</ref>
  • [[Carl Friedrich Gauss]]}}
  • While not an SI-unit, the litre may be used with SI units. It is equivalent to (10&nbsp;cm)<sup>3</sup>&nbsp;=&nbsp;(1&nbsp;dm)<sup>3</sup>&nbsp;=&nbsp;10<sup>−3</sup>&nbsp;m<sup>3</sup>.
  • imperial]], and [[US customary]] systems as of 2019.
  • Arrangement of the principal measurements in physics based on the mathematical manipulation of length, time, and mass.
  • Cover of brochure ''[http://www.bipm.org/en/publications/si-brochure/ The International System of Units]''
  • access-date=19 August 2010}}</ref>
  • Closeup of the National Prototype Metre, serial number 27, allocated to the United States
  • Reverse dependencies of the SI base units on seven [[physical constant]]s, which are assigned exact numerical values in the 2019 redefinition. Unlike in the previous definitions, the base units are all derived exclusively from constants of nature. Here, <math>a \rightarrow b</math> means that <math>a</math> is used to define <math>b</math>.

Systeme International         
System International         
International System of Units         
The International System of Units, known by the international abbreviation SI, which literally means 'International System of Units'. By Resolution 12 of the 11th CGPM (1960), the international abbreviation of the name of the system is: SI.

ويكيبيديا

International System of Units

The International System of Units, known by the international abbreviation SI in all languages: 125 : iii  and sometimes pleonastically as the SI system, is the modern form: 117  of the metric system and the world's most widely used system of measurement.: 123  Established and maintained by the General Conference on Weights and Measures (CGPM), it is the only system of measurement with an official status in nearly every country in the world, employed in science, technology, industry, and everyday commerce.

The SI comprises a coherent system of units of measurement starting with seven base units, which are the second (symbol s, the unit of time), metre (m, length), kilogram (kg, mass), ampere (A, electric current), kelvin (K, thermodynamic temperature), mole (mol, amount of substance), and candela (cd, luminous intensity). The system can accommodate coherent units for an unlimited number of additional quantities. These are called coherent derived units, which can always be represented as products of powers of the base units. Twenty-two coherent derived units have been provided with special names and symbols.

The seven base units and the 22 coherent derived units with special names and symbols may be used in combination to express other coherent derived units. Since the sizes of coherent units will be convenient for only some applications and not for others, the SI provides twenty-four prefixes which, when added to the name and symbol of a coherent unit produce twenty-four additional (non-coherent) SI units for the same quantity; these non-coherent units are always decimal (i.e. power-of-ten) multiples and sub-multiples of the coherent unit. The SI is intended to be an evolving system; units and prefixes are created and unit definitions are modified through international agreement as the technology of measurement progresses and the precision of measurements improves.

Since 2019, the magnitudes of all SI units have been defined by declaring that seven defining constants have certain exact numerical values when expressed in terms of their SI units. These defining constants are the speed of light in vacuum c, the hyperfine transition frequency of caesium ΔνCs, the Planck constant h, the elementary charge e, the Boltzmann constant k, the Avogadro constant NA, and the luminous efficacy Kcd. The nature of the defining constants ranges from fundamental constants of nature such as c to the purely technical constant Kcd. Prior to 2019, h, e, k, and NA were not defined a priori but were rather very precisely measured quantities. In 2019, their values were fixed by definition to their best estimates at the time, ensuring continuity with previous definitions of the base units.

The current way of defining the SI is a result of a decades-long move towards increasingly abstract and idealised formulation in which the realisations of the units are separated conceptually from the definitions. A consequence is that as science and technologies develop, new and superior realisations may be introduced without the need to redefine the unit. One problem with artefacts is that they can be lost, damaged, or changed; another is that they introduce uncertainties that cannot be reduced by advancements in science and technology. The last artefact used by the SI was the International Prototype of the Kilogram, a cylinder of platinum–iridium.

The original motivation for the development of the SI was the diversity of units that had sprung up within the centimetre–gram–second (CGS) systems (specifically the inconsistency between the systems of electrostatic units and electromagnetic units) and the lack of coordination between the various disciplines that used them. The General Conference on Weights and Measures (French: Conférence générale des poids et mesures – CGPM), which was established by the Metre Convention of 1875, brought together many international organisations to establish the definitions and standards of a new system and to standardise the rules for writing and presenting measurements. The system was published in 1960 as a result of an initiative that began in 1948, so it is based on the metre–kilogram–second system of units (MKS) rather than any variant of the CGS.