The division of the time into several dimensions
Authors/Creators
Description
The present study focuses on the time and proposes to divise it into a range of dimensions. Indeed according to the principle of the Relativity [1] the time is described as a dimension, to be added to the three dimensions of space. This article proposes to consider the time in a more complex way and to separate it into several dimensions. All these dimensions do not necessarily express themselves simultaneously. In fact this would depend on the complexity of the system studied and of the dynamism of the object studied. It is conjectured that there would be at least one additional time dimension which would be related to the acceleration and the forces, then that there could be at least ten time dimensions. And in fact there could theoretically be an infinity, as long as we can continue to derive the distance by the time. This article proposes the development and some illustrations of this idea in order to try to better understand the complex physical dimension that is the time. Finally a model of the atom is proposed.
Notes
Link between the time dimension of degree 2, gravity expressed as a force and relativity.
The classical gravity is expressed in m/s2.
Which involves an acceleration either 1 dimension of space and 2 of time > temporal dimension of degree 2 for a rectilinear movement not uniform.
The general relativity is described by A. Einstein as a non-Euclidean space in 4 dimensions including 3 dimensions of space and 1 of time. It is the gravitational field that generates the non-Euclidean space by a curvature of the coordinate system to 3 dimensions of space and 1 of time knowing that the mass distorts the space according to the temporal axis. The curvature of the coordinate system is interpreted as a movement according to the temporal axis.
Now in the framework of the special relativity for which space is considered as an Euclidean space there are already 4 dimensions including 1 of time.
If the curvature of the coordinate system of the general relativity is necessarily caused by adding (at least) one dimension to the system, this is consistent with the idea of adding a time dimension to the system when moving from special relativity to general relativity in a system involving a gravitational field.
Gravity can be related to an additional temporal dimension and this idea is compatible with the principle of general relativity.
Files
TPQM-25022501-6-10.pdf
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Additional details
Dates
- Accepted
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2025-04-08