Difference between revisions of "On Multiple Approach To The Description Of Fundamental Objects"
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The article describes assembly of a symmetric form of the Maxwell equation for the enlarged dimensionality of space-time. Equations of fundamental objects have been obtained. It was shown that linear differential equations of the first, second and higher orders obtained by means of taking of variations of the first, second and higher orders of action functional can be used for description of fundamental objects. Hence, one and the same object can be described by differential linear equations of different orders and the behavior will be determined through orientation of the object towards the observed space-time. | The article describes assembly of a symmetric form of the Maxwell equation for the enlarged dimensionality of space-time. Equations of fundamental objects have been obtained. It was shown that linear differential equations of the first, second and higher orders obtained by means of taking of variations of the first, second and higher orders of action functional can be used for description of fundamental objects. Hence, one and the same object can be described by differential linear equations of different orders and the behavior will be determined through orientation of the object towards the observed space-time. | ||
− | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|]] |
Latest revision as of 10:48, 1 January 2017
Scientific Paper | |
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Title | On Multiple Approach To The Description Of Fundamental Objects |
Author(s) | Lada Vladimirovna Rudikova |
Keywords | {{{keywords}}} |
Published | 2013 |
No. of pages | 8 |
Abstract
The article describes assembly of a symmetric form of the Maxwell equation for the enlarged dimensionality of space-time. Equations of fundamental objects have been obtained. It was shown that linear differential equations of the first, second and higher orders obtained by means of taking of variations of the first, second and higher orders of action functional can be used for description of fundamental objects. Hence, one and the same object can be described by differential linear equations of different orders and the behavior will be determined through orientation of the object towards the observed space-time.
[[Category:Scientific Paper|]]