Lesson 1 Lesson 2 Lesson 3 Lesson 4 Lesson 5 Lesson 6 Lesson 7 Lesson 8 Lesson 9 Lesson 10
Metrology, standardization and certification |Метрология, стандартизация и сертификация
Lesson 3
Read the text: History of measurement
Metrology has existed in some form or another since antiquity. The earliest forms of metrology were simply arbitrary standards set up by regional or local authorities, often based on practical measures such as the length of an arm. The earliest examples of these standardized measures are length, time, and weight. These standards were established in order to facilitate commerce and record human activity.
Little progress was made with regard to proto-metrology until various scientists, chemists, and physicians started making headway during the Scientific Revolution. With the advances in the sciences, the comparison of experiment to theory required a rational system of units, and something more closely resembling modern metrology began to come into being. The discovery of atoms, electricity, thermodynamics, and other fundamental scientific principles could be applied to standards of measurement, and many inventions made it easier to quantitatively or qualitatively assess physical properties, using the defined units of measurement established by science.
Metrology was thus one of the precursors to the Industrial Revolution, and was necessary for the implementation of mass production, equipment commonality, and assembly lines.
Modern metrology has its roots in the French Revolution, with the political motivation to harmonize units all over France and the concept of establishing units of measurement based on constants of nature, and thus making measurement units available "for all people, for all time". In this case deriving a unit of length from the dimensions of the Earth, and a unit of mass from a cube of water. The result was two platinum standards for the meter and the kilogram established as the basis of the metric system on June 22, 1799. This further led to the creation of the Système International d'Unités, or the International System of Units. This system has gained unprecedented worldwide acceptance as definitions and standards of modern measurement units. Though not the official system of units of all nations, the definitions and specifications of SI are globally accepted and recognized. The SI is maintained under the auspices of the Meter Convention and its institutions, the General Conference on Weights and Measures, or CGPM, its executive branch the International Committee for Weights and Measures, or CIPM, and its technical institution the International Bureau of Weights and Measures, or BIPM.
As the authorities on SI, these organizations establish and promulgate the SI, with the ambition to be able to service all. This includes introducing new units, such as the relatively new unit, the mole, to encompass metrology in chemistry. These units are then established and maintained through various agencies in each country, and establish a hierarchy of measurement standards that can be traced back to the established standard unit, a concept known as metrological traceability. The U.S. agencies holding this responsibility is known as the National Institute of Standards and Technology, or NIST; and the American National Standards Institute (ANSI).
1. Match the left part with the right:
1. the earliest forms of metrology were |
a) the dimensions of the Earth. |
2. a unit of length was deriving from |
b) a cube of water. |
3. a unit of mass was deriving from |
c) the auspices of the Meter Convention and its institutions. |
4. the SI is maintained under |
d) simply arbitrary standards such as the length of an arm. |
2. Complete the sentences with the suggested words: measurement, fundamental, defined, easier
The discovery of atoms, electricity, thermodynamics, and other ______ scientific principles could be applied to standards of _______, and many inventions made it _______ to quantitatively or qualitatively assess physical properties, using the _______ units of measurement established by science.