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Abstract. The article is devoted to finding units of measurement of physical values, similar in their properties to Planck’s units of measurement. It is shown that the new units of measurement differ from the previous values of the mass of the elementary particle with the smallest value. A neutrino appears as such a particle, the mass of which cannot be established experimentally, but there are grounds for its introduction that follow from the theory of the gravitational-gyroscopic field. With its introduction the quanta of lengths, time intervals and temperature values change abruptly. These quantities are more convenient to use in practice, because they are much closer in terms of the values currently used, which distinguishes them from the units of Planck’s system. It can also lead to significant increase in accuracy of these units.
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Key words and phrases: Планк, физические величины, единица измерения, кванты массы, длины, времени, температуры, электрического заряда, изменение квантов и других величин, Planck, physical values, measurement unit, quanta of mass, length, time, temperature, electric charge, change in quanta and other values
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Русский
