Casimir effect

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Corresponding Wikipedia article: Casimir effect


This effect is manifested when the surfaces of objects with low surface roughness (the mirrors) are so close to each other, that the micro level forces between the material particles are manifested. The total aetheric dynamic pressure between the particles exceeds the external dynamic pressure, but the static pressure vice versa. This causes the mutual attraction of particles and objects.

The estimated total aetheric pressure within the gap between the plane objects, according to the particle model (see "Mass and inertia"), is: \[P=\rho v^2=\frac{Ke^2}{16\pi^2\varepsilon_0}\frac{1}{d^4}\] \(K\) is a dimensionless coefficient, which depends on the particles concentration and their aetheric vortices geometry;
\(e\) is the elementary charge;
\(\varepsilon_0\) is the vacuum permittivity;
\(d\) is a gap size.

According to the quantum theory, this pressure weirdly does not depend on the material properties: \[P=\frac{hc\pi}{480}\frac{1}{d^4}\] The experimental measurements are technically difficult and, therefore, questionable.


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