Properties of the New Time-Space with a Constant Path (Sconst.)| Chapter 10 | Research Developments in Science and Technology Vol. 2

It is well understood that the material universe in which we live exists in a time-space continuum with a continuous rate of change (Tconst). It is composed up of transverse vortices that propagate in space at a constant speed (Vconst.) with the only variation being the distance between them (S var.). These transverse vortices likewise have a constant tangential velocity along the motion of the vortices, according to the postulate that makes Maxwell's theory of the electromagnetic field correct [1]. As a result, they create so-called "closed vortices," in which all of their points move at the same moment (Tconst.). The transverse vortices construct so-called real time-space with T=const in this fashion.

The new time-space, as described in previous works by the same author, is composed of longitudinal (rather than transverse) vortices with a variable (Vvar.) (rather than constant) velocity, i.e. they may accelerate or decelerate [2,3]. The theory of New Axioms and Laws by the same author [4] describes these longitudinal vortices with variable velocity (Vvar.).

According to this idea, accelerating longitudinal vortices suck transverse vortices from the outside in, attracting them to one another and concentrating them into a funnel-shaped bundle. As a result, in S=const, they create an accelerating funnel. This is accomplished by placing the fastest vortex (Vmax.) at the funnel's core, which travels with the fewest and smallest coils possible. It takes the shortest time (Tmin.) to complete the fixed path (Sconst.) and hence appears first in time. However, the slowest vortex (Vmin.) is looped around the funnel's edge, with the most coils and the largest diameter. As a result, it follows the same fixed path (Sconst.) for the longest duration (Tmax.) and appears last in time.

The decelerating longitudinal vortices release transverse vortices to the exterior and resist each other by dispersing their longitudinal vortices sideways and distracting them.

As a result, in S=const, they form a decelerating funnel.

The longitudinal vortices' accelerating and decelerating funnels (in Sconst. time-space) serve as a connection between the decelerating and accelerating transverse vortex ( in Tconst. time-space).

The features of the novel longitudinal vortex formations are both surprising and quite beneficial. The gravitational pull, for example, is caused by the acceleration along longitudinal vortices rather than by space distortion. The direction of real time in time-space T=const (TrealTconst) is the inverse of real time in time-space S=const (TrealSconst), and so on.

Author(s) Details:

Valentina Markova,
Bulgarian Academy of Sciences, Bulgaria.

Please see the link here: https://stm.bookpi.org/RDST-V2/article/view/6612