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Energodynamic system of physical quantities and concepts

(ESQC)


To not mix with SI, unifying UNITS (explanation).

On Main

For whom and what for it is necessary?

Explanation of the basic terms

Forms and kinds of energy

Conditions of successful systematization

Classification of physical systems

The basic idea of system

Tables of physical quantities

In what novelty of a site?

     Forms and kinds of movement

     About a rotation angle in detail

     About movement of a body         on an orbit

     Systematization of force fields         quantities

     Systematization of oscillations         and waves quantities

     New dimension                          of temperature

     Generalization of the transport          phenomena

     Similarity criterions                         everywhere

     About a nature of dimension


The system approach in economy

History of a problem

To learn physics on new!

Training and visual aids


The catalogue of links

New pages of a site

Jokes on a subject of a site


About the author

J.Sh.Kogan

Publications by topic

Monographies

1. Fundamentals of Engineering, 1993, Kirov, KGPI, 231 p.
2. Generalization and Systematization of Physical Quantities and Concepts, 2006, Haifa, Publ.off. "Rassvet", 207 p.

Publications in Journals

1. About the units of physical quantities describing the rotational motion. 1998, Kirov: “Mechanical Engineering. Design and Technology”, Collection of scientific works VGTU, 3, p.p. 62-64.
2. On the question of dimensions and units of dimensionless physical quantities. 1998, Legislative and Applied Metrology, 4, p.p. 55-57.
3. A possible principle of systematization of physical quantities. 1998, Legislative and Applied Metrology, 5, p.p. 30-43.
4. About desirability scaling up of application of similarity theory in teaching technical sciences. 1998, Kirov: “Mechanical Engineering. Design and Technology”, Collection of scientific works VGTU, 3, p.p. 64-69.
5. Systematization and classification of definitions and additions to the notion of "energy". 2009, Automation and IT in power engineering, 2-3, p.p. 56-63.
6. The base physical quantities are assigned or dictated by nature? 2011, Legislative and Applied Metrology, 3, p.p. 55-56.
7. The development of the idea of unification of electromagnetism and gravitation. 2011, The World of Measurements, 3, p.p. 51-53.
8. Nature of the dimension and classification of physical quantities. 2011, Legislative and Applied Metrology, 4, p.p. 40-50.
9. Metrological and terminological problems of the description of periodic processes and of the choice of units. 2011, The World of Measurements, 6, p.p. 12-18.
10. Rotation angle is the base physical quantity. 2011, Legislative and Applied Metrology, 6, p.p. 55-56.
11. The number of entities as the base physical quantity. 2011, The World of Measurements, 8, p.p. 46-50.
12. Physical quantity should not have unit m–1 or s–1. 2011, Legislative and Applied Metrology, 5, p.p. 43-49.
13. Energy as the base physical quantity. 2012, Legislative and Applied Metrology, 1, p.p. 48-53.
14. Metrology of heat form of motion. 2012, Legislative and Applied Metrology, 2, p.p. 45-53.
15. The system of quantities based on the length L and the time T: Pro et Contra. 2012, Legislative and Applied Metrology, 3, p.p. 50-57.
16. Physical quantities are real by definition. 2012, Legislative and Applied Metrology, 4, p.p. 42-47.
17. "The dimensionless physical quantity" is the conditional concept. 2012, Legislative and Applied Metrology, 5, p.p. 52-57.
18. System of quantities do not have to depend on systems of units. 2012, The World of Measurements, 7, p.p. 46-50.
19. About violations of the principle of causality in metrology of electromagnetism. 2013, Legislative and Applied Metrology, 1, p.p. 52-57.
20. Metrological problems associated with the notion "mass". 2013, Legislative and Applied Metrology, 2, p.p. 37-43.
21. Existing definitions of thermodynamic temperature. 2013, The World of Measurements, 6, p.p. 46-49.
22. Metrological analysis of the quantities of physical economy. 2013, Legislative and Applied Metrology, 5, p.p. 32-35.
23. Dimensions and units of intensities in the physical field. 2014, Legislative and Applied Metrology, 1, p.p.. 44-48.
24. On the dimension and the unit of thermodynamic temperature in considering of thermal radiation. 2014, The World of Measurements, 6, p.p. 9-13.

Publication in scientific and technical portal sciteclibrary.ru




© И. Коган Date of first publication 28.10.2011
Last updated on 09.09.2014