STEM-physics / Overview / Synergy / Synergy (3)



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As for any new initiative, it is wise to analyse the many aspects that the processes of promoting, advocating, experiencing and developing this new theory can involve.

Bibliographie de R.L Vallée

Ancien ingénieur du CEA de Saclay, diplômé de l'école supérieur d'électricité (SUPELEC).

About Buddha

A short tribute and apologize to Buddha...


The fabulous density of space energy: how is it computed?

Now, you understand how electromagnetic energy fulfills space and you know that an absolute amount of energy can be evaluated in a stationary inertial medium. There is a way to compute the space density of synergy.

The synergy of continuous media

The Fizeau's experiment allows measuring the speed of light in a material continuous medium such as water or gas.


Considering a material continuous medium moving at speed V in a stationary inertial medium, the synergy and momentum of the two interacting media is:

  • S = (M0 + m).c0 2 (1)

  • P = (M0 + m).Δv = m.V (2)

where:

  • M0 is the space immaterial density of mass

  • m is the material medium density of mass

  • and Δv is therefore the speed of the space medium dragged by the material medium moving at speed V. This speed appears in expression (2) in order to balance the total momentum of both media.

  • Δv = m/(M0 + m).V (3)

First, the trapping of space medium in a continuous material medium is confirmed by Fizeau's experiment which establishes a relationship between the speed of drag and the refractive index n of the matter.

  • Δv = (1 - 1/n2 ).V (4)

Second, Gladstone empirically showed that the mass density of several substances directly depends on their refractive index and a constant value:

  • m = (n - 1)/Rn (5)

Computing the space density of synergy

Rn is identical for perfect gases and can therefore be applied for low density in which vacuum is almost obtained. The combination of expression (3), (4) and (5) also gives an expression (6) of the space density M0 in which the refractive index is 1.

  • M0 = 1 / [(n + 1).Rn ] = 1 / (2.Rn ) (6)

According the Gladstone's constant for perfect gas (2.24 10-4 m3 /Kg), space density of immaterial mass and space density of synergy are:

  • M0 = 2.23 103 Kg/m3

  • S = 2. 1020 J/m3 a quite few amount of energy, isn't it!

In conclusion STEM-physics doesn't waffle for an illusive fame. According quite simple calculations and an as so simple interpretation of physics, it obviously shows that space is made of a fabulous quantity of energy.

It is now our ecological concern to think out the means to harness it.

Now Gravitation is explained...
(about the usage of Buddha symbol...)