Tables of Physical Properties connected with Colors

Tables of Physical Properties connected with Colors

Addaptation of Physical Properties to Colors:

After many observational investigations since 1984, I became to the addaptation of Mechanical and Thermal Properties with the main Colors of Nature (in my view). As one may see in Table 1 in the following, I recognize the following 10 basic colors: Blue-sky, Yellow-sun, Red-sunset, White-clouds, Black-cave, Ultra-Violet (Near and Far) and Infrared (Near, Medium and Far). For these 10 basic colors I regard the following 50-50% combinations of those basic colors: Gray, Violet, Green, Orange, Crimson, Bluish, Yellowish and Reddish. In addition I add the Brown color as a combination of Black (40%) and Orange (60%).

The Mechanical and Thermal Properties are taken due to Physical-Engineering considerations. For Mechanical properties I regard the following 5 functions: Tension, Bending, Shearing, Torsion and Crushing. To each of these 5 functions I regard 2 levels of implementing: Stiffness and Elasticity. Thus, there are 10 Mechanical properties addaped to the 10 basic colors.

For the Thermal Properties I regard the following 5 functions: Transfering, Insulation, Conservation, Radiation and Expansion (or Contraction). To each of these thermal function I regard 2 options: Heat and Cold. Therefore, there are 10 Thermal Properties addapted to the 10 Basic Colors.

The addaptations of the Mechanical and Thermal Properties to the Basic Colors and the Combined Colors, are givem in Table 1.

In the next pages I will bring many examples from Animal, Plants and Inanimated items that may justify my addaptations in Table 1. I will explain there also the physical functions listed above.

It is important to note taht all my addaptations and explanations are no more than my suggestions for research of experimentalists in Physics and Biology. Thus, at this stage of the theory one may regard Table 1 as strating point to deep researches for many years to come.

I see my work on the addaptations in Table 1 as a work on a three-dimensional crossword. First I have to find out which of the colors should be regarded as basic. Then, I have to find reasonable addaptation between the colors and the Mechanical Properties. These addaptation should be justified by the many examples from Nature. Then, I have to find addaptations between the colors and the Thermal Properties. Again, the many examples of Nature should justify these addaptations. Thus, we have so far two do-dimentional crosswords. Now, the hard task is to find how the addaptation of a specific Mechanical properity for a specific color is satteled down with the addaptation of the Thermal Property for the same color. In other words, can we show, for example, that if the Black color is connected with the Mechanical Peroperty: Torsion Stiffness, how this implies that the Black color may has the Thermal property: Heat Insulation. So far, I have succeeded to find such connections with regards ro the colors: Black, White, Blue, Red and Yellow. I have to addmit that it is realy very exciting for me to find out each reasonable explanation, yet with mind work only. I wait for the experimentalists to find out how many of my addaptations are true.

Let us go now to Table 1 where there are the addaptaions btween the Basic colors and the Mechanical and Thermal Properties. On those basic adaptations I conclude the adaptations to the mixing of the Basic colors, first 50-50% mixing and thereafter to other mixing. I regard the mixing of the physical properties by the same fractions as the mixing of the Basic colors. This is one of my important conclusions after many years of observational investigations.

TABLE 1: Mechanical and Thermal Properties Corresponding to the Main Colors in Nature.
(The numbers here are not scientific. They are given here for comperation only).
To each color I correspond two kinds of Physical Properties. The first components are the Mechanical Property. Then comes the components of the Thermal Property.
I first give 10 Colors, which I think they are the Basic Colors of Nature. Then I give Colors that are compositions 50-50% of the Basic Colors. At the end I give the Brown Color, which I regard as composed of 40% Black plus 60% Orange, while the Orange is 50% Red plus 50% Yellow.

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Basic Colors of Nature	Mechanical Properties	Thermal Properties
Far Ultra-Violet (FUV) (Transparent)	Torsion Stiffness (10)	Cold Transference (10)
White	Crush Elasticity (10)	Cold Insulation (10)
Near Ultra Violet (NUV) (transparent-bright)	Shearing Elasticity (10) (Viscosity)	Cold Conservation (10)
Blue sky	Torsion Elasticity (10)	Cold Contraction (10)
Yellow sun	Shearing Stiffness (10)	Heat Conservation(10)
Red sunset	Bending Elasticity (10)	Heat Expansion (10)
Near Infra Red (NIR) (greyish transparent)	Tension Elasticity (10)	Cold Radiation (10)
Black	Tension Stiffness (10)	Heat Insulation (10)
Medium Infra-Red (MIR) (reddish-turbid)	Bending Stifness (10)	Heat Radiation (10)
Far Infra-Red (FIR) (opaque)	Crush Stiffness (10)	Heat Transference (10)
Combinations 50-50%
Grey (White + Black)	Crush Elasticity (5) Tension Stiffness (5)	Cold Insulation (5) Heat Insulation (5)
Violet (NUV+ Blue)	Shearing Elasticity (5) Torsion Elasticity (5)	Cold Conservation (5) Cold Contraction (5)
Green (Blue + Yellow)	Torsion Elasticity (5) Shearing Stiffness (5)	Cold Contraction (5) Heat Conservation (5)
Orange (Yellow + Red)	Shearing Stiffness (5) Bending Elasticity (5)	Heat Conservation (5) Heat Expansion (5)
Dark Red (Red + NIR)	Bending Elasticity (5) Tension Elasticity (5)	Heat Expansion (5); Cold Radiation (5)
Crimson (Red + Blue)	Bending Elasticity (5) Torsion Elasticity (5)	Heat Expansion (5) Cold Contraction (5)
Bluish (Blue + White)	Torsion Elasticity (5) Crush Elasticity (5)	Cold Contraction (5) Cold Insulation (5)
Yellowish (Yellow + White)	Shearing Stiffness (5) Crush Elasticity (5)	Heat Conservation (5) Cold Insulation (5).
Reddish (Red + White)	Bending Elasticity (5) Crush Elasticity (5)	Heat Expansion (5) Cold Insulation (5)
Other Combinations
Brown (Black + Orange)	Tension Stiffness (4) Shearing Stiffness (3) Bending Elasticity (3)	Heat Insulation (4) Heat Conservation (3) Heat Expansion (3)

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I will use this Table for explaining the Colors of Animals and Plants of various kinds. For understanding the connections between the Colors and the Mechanical properties see my article:

* "The Tower Hypothesis.