Скачать книгу

exchange of information about the use and refinement of the metric system. As measurement science develops more precise and easily reproducible ways of defining the measurement units, the General Conference of Weights and Measures – the diplomatic organization made up of adherents to the Convention – meets periodically to ratify improvements in the system and the standards.

      The aforementioned General Conference adopted an extensive revision and simplification of the system in 1960. The name Le Systeme International d’Unites (International System of Units), with the international abbreviation SI, was adopted for this modernized metric system. Further improvements in and additions to SI were made by the General Conference in 1964, 1968, and 1971.

      The basic units in the SI system are the meter (length), kilogram (mass), second (time), ampere (electric current), Kelvin (temperature), mole (amount of a substance), and candela (the unit of luminous intensity). All are commonly used by scientists and engineers. The Celsius scale of temperature (0°C, 273.15 K) is commonly used with the absolute Kelvin scale. The important derived units are the newton (SI unit of force), the joule (SI unit of energy), the watt (SI unit of power), the pascal (SI unit of pressure), the hertz (unit of frequency). There are also a number of electrical units: coulomb (charge), farad (capacitance), henry (inductance), volt (potential), and weber (magnetic flux). As noted, one of the major advantages of the metric system is that larger and smaller units are given in powers of ten. In the SI system, a further simplification is introduced by recommending only those units with multipliers of 103. Thus, for lengths in engineering, the micrometer (previously micron), millimeter, and kilometer are recommended, and the centimeter is generally avoided. A further simplification is that the decimal point may be substituted by a comma (as in France, Germany, and South Africa), while the other number, before and after the comma, will be separated by spaces between groups of three, i.e. one million dollars will be $1 000 000,00. More details are provided in a later section. Details on the seven base units are provided shortly.

      3.2.1 Length – Meter (m)

      3.2.2 Mass – Kilogram (kg)

      The standard for the unit of mass, the kilogram, is a cylinder of platinum-iridium alloy kept by the International Bureau of Weights and Measures in Paris. A duplicate in the custody of the National Bureau of Standards serves as the mass standard for the United States. This is the only base unit defined by an artifact. The SI unit of force is the newton (N). One newton is the force which, when applied to a 1 kilogram mass, will give the kilogram mass an acceleration of 1 (meter per second) per second, i.e.

      

(3.1)

      The SI unit for pressure is pascal (Pa). One pascal equals 1 N/m2. The SI unit for work and energy of any kind is the joule (J). One joule is equal to 1 N-m. The SI unit for power of any king is the watt (W). One watt is equal to 1 J/s.

      3.2.3 Time – Seconds (s)

      The second is defined as the duration of 9,192,632,770 cycles of the radiation associated with a specified transition of the cesium-133 atom. It is realized by tuning an oscillator to the resonance frequency of cesium-133 atoms as they pass through a system of magnets and a resonant cavity into a detector. The number of periods or cycles per second is called frequency. The SI unit for frequency is the hertz (Hz). One hertz equals one cycle/s The SI unit for speed is the meter per second (m/s). The SI unit for acceleration is the meter per second per second (m/s2).

      3.2.4 Electrical Current – Ampere (A)

      The ampere is defined as that current which, if maintained in each of two long parallel wires separated by 1 meter in free space, would produce a force between the two wires (due to their magnetic fields) of 2 × 10-7 N/m length. The SI unit of voltage is the volt (V), where one volt equals 1 W/A. The unit of electrical resistance is the ohm (Ω). One ohm equals 1 V/A.

      3.2.5 Temperature – Kelvin (K)

      3.2.6 Amount of a Substance – Mole (mol)

      The mole is the amount of substance of a system that contains as many elementary entities as there are atoms and is 0.012 kg of carbon-12. When the mole is used, the elementary entities must be specified and may be atoms, molecules, ions, electrons, other particles, or specified groups of such particles. The SI unit of concentration of a substance is the mole per cubic meter (mol/m3).

      3 .2.7 Luminous Intensity – Candela (cd)

      The candela is defined as the luminous intensity of 1/600,000 of a square meter of a black body at the temperature of freezing platinum (2045 K). The SI unit of light flux is the lumen (lm). A source having an intensity of 1 candela in all directions radiates a light flux of 4π lumens.

      3.2.8 Supplementary Units

      Two supplementary units complement these seven primary units. They include:

      1 Phase angle – radian (rad). The radian is the plane angle with its vertex at the center of a circle that is subtended by an arc equal in length to the radius.

      2 Solid angle – steradian (sr). The steradian is the solid angle with its vertex at the center of a sphere that is subtended by an arc of the spherical surface equal to that with sides equal in length to the radius.

      3.3 SI Multiples and Prefixes

Скачать книгу


Multiples submultiples Prefixes Symbols
1 000 000 000 000 1012 tera T
1 000 000 000 109 giga G
1 000 000 106 mega M
1000 103 kilo k