суббота, 17 сентября 2016 г.

08. OPTICALLY PERCEIVED PROPERTIES OF MATTER

08. OPTICALLY PERCEIVED PROPERTIES OF MATTER

And now, after we have discussed, what constitutes the processes of emission and reflection of elementary particles (including visible photons),  let's consider the reasons for which we anyway optically perceive substances of surrounding us bodies and environments. 
All substances of the surrounding world depending on whether, can we or not to see through them, should be divided into two main groups:  
1) Transparent;

2) Opaque.
After we have identified the substance under investigation into one of these groups, we should make one more classification. According to a second classification all substances:
1) Or are painted in one of the six colors of the spectrum (rainbow are colored in one of the six colors of the spectrum (rainbow);
2) Or are colored in a mixture of two or more colors of the spectrum;
3) Or are colorless;
4) Or white, or black, or combine both properties - gray;  
5) Or have a metallic luster;
6) Or combine coloration with glitter;
7) Or combine colorless with glitter.
Coloration, shine or colourlessness in conjunction with the transparency or opacity - these are the optical properties of the substance and they manifest themselves during interaction of the moving elementary particles with chemical elements of the substance. The moving visible photons are compulsory for the manifestation of shine of the substance, but they are not necessary for the manifestation of the coloration of substance. In this latter case,  the particles of other quality  can replace them - for example IR or radio photons. 
The existence of substance coloration, shine or transparency is caused by:  
1) Features of qualitative and quantitative composition of  chemical elements of the substance;
2) The quality of the bombarding particles.

Shine, transparency and most cases of coloration of substances, located on the surface of celestial bodies of planetary type (i.e in conditions of sufficiently low temperatures)  are caused by reflection and emission of visible photons. 

суббота, 9 июля 2016 г.

07. MECHANISM OF THE OCCURRENCE OF SPECTRUM

07. MECHANISM OF THE OCCURRENCE OF SPECTRUM

Let's consider what is a "spectrum", and also, why and how it arises.  
In physical experiments spectra are usually obtained by "light" transmission or through the prism, either through the narrow slits or tiny holes in the dense material. Based on the method of producing the spectra can be prismatic and interferential.
Spectrum - is a visible on the screen range of six colors smoothly transitioning from one to another. The spectrum is formed by "visible" photons of different quality.
As already stated, a light beam - this is the path traveled by "visible" photons (by elementary particles in a broader sense) in the environment.  Otherwise, we can say that this is  the way "burnt through" by visible photons (elementary particles). Herewith, photons (elementary particles) in the composition of the light beam emitted by the light source move all together. This means that visible photons of different quality don't move by different ways. Then why we see on the screen strips of different colors? Because the following occurs. 
First, we consider the mechanism of "decomposition of light" with the help of glass triangular prism. I. Newton used in his experiments  exactly such prisms. The triangular prism has three tops and three bases. In experience one of the tops of the prism was located down, and the opposing base was up.  As we remember, the violet strip in the spectrum was located on the screen closer to the base, and the red - closer to the top. The base of the prism contains more chemical elements than the top.  So, the total gravitational field of the base of the prism is more than of its top. It is this fact along with limitation the amount of light falling on the prism becomes a cause of appearance on the screen of the rainbow stripes - spectrum. The explanation is quite simple. We have already given it earlier. Let's repeat in general terms. 
Chemical elements of glass that form the prism - silicon, oxygen and metal impurities. Silicon and metal impurities are characterized by the largest Fields of Attraction compared with oxygen.  

Chemical elements of glass of the prism create the Force of Attraction in photons, which are part of the prism. Respectively, the total Force of Attraction near the base of the prism is larger than it is at the top, because  the total number of elements in the base is larger. The Force of Attraction acting from the side of the top is not big. It weakens the effect of the Attractive of the base, but so insignificantly  that almost insensibly. 
Each photon included in the material of the prism has the Force of Inertia, that moves it forward. Herewith, as already mentioned in color theory, there are photons of three primary colors - blue, yellow and red - with different speed (or amount) of destroyed (disappeared) ether.  During motion as a part of the total flow the visible photons of different quantity have the different magnitude of the Force of Inertia. Force of Attraction and  Force of Inertia interact in each photon in accordance with the Rule of Parallelogram.  
The Resultant Force is a diagonal of parallelogram constructed on the vectors of both Forces as on the sides. As a result each photon is deflected on a strictly defined angle in accordance with direction of the vector of the Resultant Force.  And we can observe the result of this deviation on the screen in the form of spectrum, where photons with different Force of Inertia deviate from the initial trajectory by their own angle. 
We can observe separation of the light beam to the spectrum only because that a very small number of visible photons enters the prism.  Do you remember, in the experience we limit the amount of "light" making a hole in the thick curtain? If the prism was illuminated by the day light, we would not have seen on the screen the spectrum.  This is explained by the fact that the total brightness of the transmitted and reflected light at day illumination would be so large that would exceed the threshold of distinction our visual analyzer.  Such a bright light we characterize as "white".
Here is a description of the interference picture.

"If we use white light representing a continuous set of wavelengths from 0,39 micrometers  (the violet boundary of the spectrum) to 0,75  micrometers  ( the red boundary of the spectrum), then the interference maxima for each wavelength will be ... shifted relative to each other and will have the form of rainbow stripes. Only for m=0 (m - this is the maximum, the author's footnote) maxima of all wavelengths coincide, and in the middle of the screen we will observe the white strip, on both sides of which we will see the symmetrically located spectrally colored stripes of maxima of first, second order, etc. (zones of violet color will be closer to the white strip, father - thу red zones)". (TI Trofimova, "The course of physics").
And here is the description of Fraunhofer diffraction at a single slit.  During illumination of the slit by white light the central maximum has the form of a white strip; it is common for all wavelengths (if φ = 0 the path difference is equal to zero for all λ). The Side maxima are rainbow colored because the condition of maximum for any "m" is different for different "λ". Thus, right and left of the central maximum we can observe the maxima of first..., second... and other orders facing by the violet edge toward the center of the diffraction pattern. However they are so blurred that it's impossible to obtain a clear separation of different wavelengths with the help of diffraction at a single slit". (TI Trofimova, "The course of physics").  
In the glass prism the elements of oxygen included in the glass composition were a conducting medium for "visible" photons. And in the holes and slits done in a dense material - mainly there is nitrogen of the air. However, the reason of occurrence and prismatic spectrum, and  diffractive-interferential is the same - gravitational fields of chemical elements.  In the prism this attraction from the side of the prevailing number of elements in the base. And in a hole or a slit this is because the attraction from the side of chemical elements of air at the same time with the weakening of the light flux due to the attraction  of photons of elements of the dense material, in which they are made. 
Any diffractive-interferential pattern – this is a projection on the screen of chemical elements filling the slits or holes.  Dark areas  correspond to arrangement of chemical elements. We can observe the spectrum only because the narrow slit (or the hole) transmits very little of visible photons, a significant part of which by the way is absorbed by the elements of material, where we made a slit or a hole. Exactly the weakening of the luminous flux gives us the opportunity to observe, how the chemical elements of the slit (hole) reject the moving photons by their attraction. The Force of Inertia makes photons to move. Rivalry of the Inertial Force and the Force of Attraction from the side of each chemical element in the slit or in the hole leads to emergence of the Resultant Force.  The vector of this Force will indicate the direction of motion of photons. So occurs the emergence of rainbow maxima on the screen. 



суббота, 23 апреля 2016 г.

06. TYPES OF VISIBLE PHOTONS. SIX COLORS, NOT SEVEN

06.  TYPES OF VISIBLE PHOTONS.
 SIX COLORS, NOT SEVEN

Let's recall existing information about visible photons - photons of the visible range.
All information is given from the position of synthesis of science and esoterics.
Visible photons - this is elementary particles of Physical Plane belonging to a range of values, where the gradually changing value is amount of Ether disappearing in the particles per unit of time.
Besides it, any particle within this range can have any of the three possible values indicating the amount of Ether created per unit of time. On the scale of frequencies of electromagnetic waves the visible photons  are located between the range of ultraviolet photons (with even more short wavelength than visible) and the range of infrared photons (with more long wavelength than visible). 
In spectrum between the strips of different colors there are not no clear boundaries. One strip smoothly becomes another. There are six color strips in the spectrum, but not seven. Establishing exactly seven main colors of the spectrum to a certain extent arbitrarily:  Newton sought to draw an analogy between the spectrum of sunlight and music range.
Our color perception is based on the ability to perceive ant of Ether created per unit of time by visible photons. Exactly amount of created, but not destroyed.
Three primary colors - red, yellow and blue - this is three possible values of amount of created Ether. Herewith the particles of absolutely any Plane, on any its level can have any of the three possible given values of amount of created Ether. But we can see only visible photons.
Three additional colors - orange, green and violet. They are formed by visible photons of three primary colors. 
As we have said many times, the particles of three primary colors - blue, yellow and red - are characterized by a strictly defined amount of Ether created per unit of time.  Red particles create the largest of all possible amount of Ether. Blue particles - the smallest. And yellow are located between red and blue.
At the same time, the value that characterizes the rate of  disappearance  of Ether, can have a lot of magnitudes within the limits even of a small range, as part of some Plane. That is why, among visible photons of red, yellow and blue colors there are particles, which per unit of time destroy the larger amount of Ether, and there are particles, which destroy the less amount of Ether.   

The Field of Repulsion is born in the particle, when the speed of Ether creation is more than the speed of destruction. And the Field of Attraction appears, when the speed of destruction is more than the speed of creation. 
Red visible photons have the speed of creation of Ether more than the speed of disappearance.  That is why they are characterized by Field of Repulsion. However among these red visible photons there are the particles with larger Fields of Repulsion and there are with smaller.  This is explained by existence of red visible photons with  different rate of disappearance of Ether. The larger the rate of the Ether disappearance, the smaller the Field of Repulsion. And correspondingly, the smaller the rate of disappearance of Ether, the larger the Field of Repulsion. 
All approximately the same we can say about visible photons of yellow and blue colors. With the only difference that they have Fields of  Attraction instead the Fields of Repulsion. The yellow and blue visible photons have the rate of Ether disappearance more than the rate of creation. that is why they are characterized by Fields of Attraction. herewith the blue have the speed of creation less than yellow.  However among all particles - blue and yellow there are particles with larger Fields of Attraction and there are with smaller. And this is explained exactly by existence of blue and yellow visible photons with different rate of Ether disappearance. The larger the speed of disappearance of Ether - as of blue, and of yellow - the larger the Field of Attraction.  Accordingly, the less the speed of Ether disappearance, the less the Field of Attraction.  
We have already said in the book devoted to the mechanics of elementary particles ("Ethereal mechanics")  that the term "Field of Attraction" is synonymous with the term "mass", and the term "Field of Repulsion" - with the term "antimass". The particles with antimass are always easier than the particles with mass. If both particles have antimass, the easier is the particle, which magnitude is larger.  If both particles  have mass, the heavier is the particle, which mass is larger. 
When the visible photons are emitted or reflected by chemical elements, after this they move by inertial. Any elementary particle in the state of inertial motion has the Field of Repulsion - i.e. antimass. Thus, the weight of visible photons (and other types of elementary particles) can be estimated in two states: 1) Out of transformation; 2) In the state of transformation. 
In the state of inertial motion visible photons are transformed and therefore, unambiguously, they are easier themselves in motionless state. 
Among red visible photons we can identify the red lightest  - i.e. photons with the largest Fields of Repulsion, the red with medium gravity - with less Fields of Repulsion, and the red with the least lightness - with the smallest Fields of Repulsion among all red visible photons. Exactly red visible photons of medium gravity form in spectrum the strip of red color. And the heaviest photons belong to the strip of orange color.
Similarly, you can also classify yellow and blue visible photons - yellow or blue the lightest, yellow or blue with medium gravity, and yellow or blue the heaviest.  Yellow light visible photons possess the smallest Fields of Attraction not only among yellow, but also among all visible photons. The yellow with medium gravity have the larger Fields of Attraction, than yellow the lightest, and yellow the heaviest have the largest. Yellow the lightest belong in spectrum to the strip of orange color. Yellow with medium gravity - to the strip of yellow color. And finally, yellow the heaviest belong to the strip of green color
Among blue the heaviest visible photons have the largest Fields of Attraction, the lightest have the smallest, and blue with medium gravity have the average values.
Herewith Fields of Attraction of any blue visible photons are larger than Fields of Attraction of any yellow. The blue lightest photons belong to the green strip of spectrum. The blue with medium gravity - to the strip of blue color. The blue heaviest are the part of the violet strip.

When optical photons begin inertial motion, they get initial speed. At the equal initial speed the visible photons of three primary colors with different mass will have the differing in magnitude Field of Repulsion. Naturally, that it will have the largest values in visible photons of red color and the smallest - in blue. All this because the red photons and out of the transformation process have the Fields of Repulsion. And the blue photons out of transformation have the Fields of Attraction, the largest in magnitude among all visible photons. 
In the process of inertial motion visible photons are united in the composition of additional colors as a result of arising in them the same Fields of Repulsion.
We can observe the first coincidence of magnitude of Repulsive Fields for the red heaviest visible photons and for the yellow lightest. The red heaviest visible photons are characterized by small Fields of Repulsion. They create per unit of time the maximum possible amount of ether. But they also destroy very great amount of ether. Almost the same quantity, what they create, but nevertheless less. That is why they have the Field of Repulsion. Inertial motion of the photon regarding ethereal field in one way or another meets the ether need of the particle. And this allows it to emit the created ether - partially or fully.  How is ensured the need of the particle to absorb the ether and how will be as a result the speed of ether emission - all this depends on the initial velocity of the particle and on the amount of absorbed by this particle and created ether. The yellow lightest visible photons create per unit of time the average possible amount of ether. And they destroy less ether than the red heaviest.  So, out of the transformation they are characterized by small Fields of Attraction. Because of the yellow lightest create less ether than the red heaviest, but they also destroy less ether, at the same initial speed the same Field of Repulsion arises in the particles of both types during inertial motion.  As a result, В результате, during inertial motion from the emitting them chemical element the red heaviest and the yellow lightest visible photons will begin to move with the same speed. 
Taken together the red and yellow visible photons form in the spectrum the strip of orange color.  
We can observe the second coincidence of the magnitude of Repulsive Field for the yellow heaviest and for the blue lightest visible photons. The yellow heaviest visible photons are characterized by not large Fields of Attraction. They create per unit of time the average possible amount of ether.  And they destroy much more ether than create. For this reason they have Fields of Attraction. The blue lightest optical photons create per unit of time a minimal possible amount of ether. And they destroy less ether than the yellow heaviest. Therefore out of transformation they are characterized by Field of Attraction, lager in magnitude than for the yellow heaviest.  Because of  the blue lightest photons create less ether than the yellow heaviest, but they also destroy less ether, at the same initial speed the equal Fields of Repulsion arise in the particles of both types. As a result, during inertial motion from the emitting them chemical element the yellow heaviest and the blue lightest visible photons will begin to move with the equal speed.

Taken together the yellow and blue visible photons form in the spectrum the strip of green color.  
And finally, we can observe the third coincidence of the magnitude of Repulsive Field during the process of formation of the violet color strip.
This color is special, because it is formed not only by visible, and by ultraviolet photons. Blue photons in the composition of violet color belong to the visible range, and red - to the ultraviolet.   
So, the violet color consists of the blue heaviest visible photons and the red lightest ultraviolet. The blue heaviest visible photons create per unit of time the minimal possible amount of ether. And ether disappears in them with the largest speed among all blue visible photons. As a result they are characterized by the largest Fields of Attraction among all visible photons. The red ultraviolet photons create per unit of time the greatest possible  amount of ether. And ether disappears in them with the larger speed compared with the red heaviest visible photons. They are characterized by Fields of Repulsion less in magnitude than the Fields of Repulsion of the red heaviest visible photons. Because of the visible blue heaviest photons create less ether than the ultraviolet red lightest, but they also destroy less ether, at the same initial speed the equal Fields of Repulsion arise in the particles of both types during inertial motion. As a result, during inertial motion from the emitting them chemical element the visible blue heaviest and the ultraviolet red lightest photons will begin to move with the equal speed.  

 Taken together the blue visible and the red ultraviolet photons form in the spectrum the strip of violet color.  

Besides the mentioned red heaviest optical photons and the red photons of medium gravity, naturally, exist the red lightest visible photons. We can't see them.   Nevertheless they together with the blue heaviest infrared photons (which we also can't see) form the violet infrared color. If we could see it, it would be the same violet as visible.  

To be continued...

пятница, 22 апреля 2016 г.

05. THE THEORY OF COLOR. SIX COLORS OF RAINBOW. SPEED OF LIGHT

05. THE THEORY OF COLOR. SIX COLORS OF RAINBOW. SPEED OF LIGHT

Let's recall existing information about the visible photons.
Visible photons (photons of the visible range) - this is elementary particles of Physical Plane belonging to the range of values, wherein the gradually changing magnitude is amount of Ether disappearing in the particle per unit of time. Besides it, any particle within this range may possess any of three possible values indicating the amount of Ether created per unit of time. On the scale of frequencies of electromagnetic waves the visible photons are located between the range of ultraviolet photons (even with shorter wavelength than visible) and the range of infrared photons (with longer wavelength than visible).
In the spectrum between the strips of different colors there are no clear boundaries. One strip smoothly becomes anotherThe number of color stripes in the spectrum is six, and not seven. Newton established exactly seven main colors of spectrum to a certain extent arbitrarily. Sir Isaac sought to draw an analogy between the spectrum of sunlight and the musical sound sequence.
Our color perception is based on the ability to perceive amount of Ether created per unit of time by visible photons. Exactly amount of created Ether, and not the destroyed (disappeared).
Three primary colors - red, yellow and blue - it is three possible values of amount of created Ether. Herewith the particles of absolutely any Plane on any its level can have any of the three given possible values of the amount of created Ether. But we are able to see only visible photons.
Three additional colors - orange, green and violet. They are formed by visible photons of three primary colors.
As we have said many times, the particles of three primary colors - blue, yellow and red - are characterized by a strictly determined amount of Ether created per unit of time. The red particles create the greatest of all possible quantity of Ether. The blue - the least. And the yellow by the quantity of the created Ether are located between the red and blue.
At the same time, quantity that characterizes the speed of Ether disappearance can have a lot of values, within the limits even of a small range in the composition of some Plane. That is why, among visible photons and red, and yellow, and blue colors there are particles, where a larger amount of ether disappears per unit of time, and there are particles, where a smaller amount of ether disappears.
The Field of Repulsion arises in the particle, when the speed of creation of Ether in it is more than the speed of destruction (disappearance). And the Field of Attraction arises, when the speed of destruction of Ether exceeds the speed of creation.
Red visible photons have the speed of Ether creation more than the speed of destruction. That is why they are characterized by the Field of Repulsion. However, among these red visible photons there are particles with the larger Fields of Repulsion, and there are with the smaller. This is explained by the existence of red visible photons with different speed disappearance of Ether. The greater the speed of the ether disappearance, the smaller the Field of Repulsion. And correspondingly, the smaller the rate of disappearance of Ether, the greater the Field of Repulsion.
All approximately the same we can say about visible photons of yellow and blue colors. With the only difference that they have Fields of Attraction instead of Repulsive Fields. The speed of Ether disappearance of yellow and blue visible photons is more than the speed of creation. That is why they are characterized by Fields of Attraction. Herewith the blue photons have the speed of Ether creation less than yellow. However, among the blue visible photons and among yellow there are particles with the larger Fields of Attraction, and there are particles with the smaller.  And this is explained precisely by existence of blue and yellow visible photons with different speed of disappearance of Ether. The greater the velocity of the Ether disappearance - of blue and of yellow photons - the larger the Field of Attraction. Accordingly, the smaller the speed of ether disappearance, the smaller the Field of Attraction.
We have already said in the book devoted to the mechanics of elementary particles ("Ethereal mechanics" - http://the-teaching-of-djwhal-khul.blogspot.ru/p/the-teaching-of-djwhal-khul-book-2) that the term "Field of Attraction" is the synonymous with the term "mass", and the term "Field of repulsion" - with the term "anti-mass". The particles with anti-mass are always lighter to the particles with mass. If both particles possess antimass, the lightest is the particle with the largest anti-mass. If both particles with mass, that particle is heavier, whose mass is greater.
When the visible photons are emitted or reflected by chemical elements, after that they are moving by inertia. Any elementary particle being in a state of inertial motion possesses the Field of Repulsion - i.e. anti-mass. More precisely, the Field of Repulsion exists only in the rear hemisphere of the particle (the rear - on the direction of motion). The emergence of Repulsive Field - i.e. change of particle quality - is an example of manifestation of transformation.

Thus, we can estimate the weight of visible photons (and other types of elementary particles) in two cases: 1) Out of the transformation process; 2) In the state of transformation.
In the state of inertial motion visible photons are transformed  and therefore lighter than when they are in the motionless state.
Among the red visible photons we can distinguish the red lightest – i.e. with the largest Fields of Repulsion (and out of the transformation state), red with medium lightness – with smaller Fields of Repulsion, and red with the least lightness – with the smallest Fields of Repulsion among all red visible photons. Exactly the red visible photons of medium gravity create in the spectrum the strip of red color. And the heaviest are the part of the orange strip.

Similarly, we can also classify yellow and blue visible photons - yellow and blue the lightest, yellow and blue with medium lightness (gravity), and yellow and blue the heaviest. The yellow lightest visible photons have the smallest Fields of Attraction not only among yellow, but also among all visible photons. The yellow photons with medium gravity have the larger Fields of Attraction than the yellow lightest. And these Fields of yellow the heaviest are even more. Yellow the lightest in spectrum are the part of the strip of orange color. Yellow with medium gravity are the part of the strip of yellow color. And finally, yellow the heaviest are the part of the strip of green color.
The blue heaviest visible photons possess the largest Fields of Attraction, the lightest - the smallest Gravity Fields, and the blue with medium gravity - the fields with medium value.  
Herewith the Fields of Attraction of any blue visible photons are larger than Fields of Attraction of any yellow. The blue lightest photons are the part of the green strip of spectrum. The blue photons with medium gravity are the part of the strip of blue color. The blue heaviest are the part of the strip of violet strip.
When visible photons begin inertial motion, they get a certain initial speed. At the same initial speed the visible photons of three primary colors of different mass form different in magnitude Field of Repulsion. Naturally, that the visible red photons have the largest values of this Field, and  the blue - the smallest, because the red have the Fields of Repulsion and out of the transformation process. And the blue photons have out of transformation the Fields of Attraction, the largest in magnitude among all visible photons. 
During the process of inertial motion the visible photons are united in the composition of additional colors because of arising of identical Field of Repulsion. 
Let's right here discuss a very important point concerning what happens in any stream of photons (elementary particles). Emitted by any source of "light" they move from it by inertia. However, as you remember, the inertial motion only of particles Yang is uniformly accelerated. The particles Yin has uniformly decelerated inertial motion. This means that if the particles Yin moved alone (monochromatically), then their motion would be quickly stopped. At the very least, they would not be able to overcome the huge cosmic distances. At the same time the particles Yang on the contrary would accelerate to incredible speeds and transmit to everything during collisions colossal energy.
But due to the fact that in any stream of light there are photons of different quality (do not forget also about the IR and radio photons), there is a leveling (averaging) of speed. Photons Yang accelerate Yin, pushing and partially giving them the emitted Ether. Yin photons decelerate Yang, compelling to push themselves and taking away a part of Yang Ether. As a result, the photon flux moves with a certain average speed, and which is known to us as the speed of light. 299 792,5 km/sec is the speed of light in free space (vacuum). As it is known, in more dense media the speed of light is always less than in less dense.  If we start experimenting with the qualitative composition of radiation - diminish or add the number of particles Yang or Yin - we can be sure that and the rate of luminous flux will change. 
So that, the speed of light  is the value vacillates. It should also be taken into account the initial speed received by photons in the emitting them source of light. For example, more hot stars (having the more mass) emits photons with more initial speed than the colder. Although hereinafter anyway there occurs the leveling of speed of the flux, but the time required for this turns out different.
Deceleration of Yang particles in the flow leads to a weakening their Field of Repulsion. At that, the more the rate of destruction of Ether and the less the rate of creation, then to a greater extent the Field of Repulsion will be weakened - i.e. the less will be Force of Inertia that causes particles to move forward.
For example, red ultraviolet photons always will have in the flow the smaller Field of Repulsion (smaller Force of Inertia), than the same red photons, but of visible range. And all because the UV photons have larger rate of destruction of Ether.

For particles Yin the motion in the joint flow leads to the opposite phenomenon for the deceleration - to the maintaining of their inertial motion.  
However, here also there are some limitations. The higher the rate of destruction and the less the speed of creation of Ether, the weaker the motion is supported. I.e. the less the Field of Repulsion (the less the Force of Inertia). For example, blue visible photons in the composition of  the violet color always have the less Field of Repulsion (the less Force of Inertia) than blue visible photons in the composition of the green strip. But the Fields of Repulsion of blue visible photons and red UV coincide.  But more about this later.

Let's go back to the colors of the rainbow.
The first coincidence of magnitude of Repulsive Fields we can observe for red heaviest visible photons and yellow lightest - in the strip of orange color. The red heaviest visible photons are characterized by Fields of Repulsion small in magnitude. They create per unit of time the maximum possible amount of Ether. But they destroy also a very lot of Ether. Almost the same amount as they create, but nonetheless less. Because of this they have Field of Repulsion. Inertial motion of photon regarding of the ethereal field in one degree or another provides the "need" of particle for "destroyed" Ether. And this allows it to emit the created Ether - partially or fully. Amount of created and destroyed by the particle Ether determines the degree of providing of need of this particle for absorbed Ether and what as a result will be the speed of emission of Ether.  
The yellow lightest photons create per unit of time the average possible amount of ether.  And they destroy less Ether than the red heaviest. Because of this out of transformation process they are characterized by small Fields of Attraction. Due to the fact that the yellow lightest create less Ether than the red heaviest, but they destroy also less Ether, the particles of both types have during the process of inertial motion the equal in magnitude Field of Repulsion. As a result, during inertial motion from the emitted them chemical element as a part of the light flux the red heaviest and the yellow lightest photons will possess the equal Field of Repulsion. Taken together, red and yellow visible photons form in the spectrum the strip of orange color.
The second coincidence of magnitude of Repulsive Field  we can observe for the yellow heaviest and for the blue lightest visible photons - in the composition of the green color strip.

The yellow heaviest visible photons are characterized by small in magnitude Fields of Attraction. They create per unit of time the average possible amount of Ether. They destroy much more Ether than create.  For this reason they have Fields of AttractionThe blue lightest visible photons create per unit of time the minimal possible amount of Ether. And they destroy less Ether than the yellow heaviest.  Because of this out of transformation process they are characterized by Fields of Attraction, larger in magnitude than in the yellow heaviest. Due to the fact that the blue lightest create less Ether than the yellow heaviest, but  and destroy they less Ether, equal in magnitude Field of Repulsion arises during inertial motion of the particles of both types. As a result, during inertial motion from the chemical element emitting them in the composition of total flow the yellow heaviest and the blue lightest visible photons will begin to move with the equal speed. Taken together  yellow and blue visible photons form in the spectrum the strip of green color.
And finally, the third coincidence of magnitude of Repulsive Field  we can observe during the formation of the strip of violet color. This is a special color, because not only visible, but also ultraviolet photons are in the composition of it.  Blue photons in the composition of violet color belong to the visible range, and red - to the UV range.
So, the blue heaviest visible photons and the red lightest ultraviolet compose the purple color. The blue heaviest visible photons create per unit of time the least possible amount of Ether and destroy Ether with the greatest possible rate among all the blue visible photons. As a result they are characterized by the largest Fields of Attraction among all the visible photons. Red ultraviolet photons create per unit of time the greatest possible amount of Ether, and they destroy more Ether compared with the heavy red visible photons. They are characterized by the Fields of Repulsion, the lesser in magnitude than Fields of Repulsion of red heavy visible photons.  Because of visible blue heavy photons create less Ether than the ultraviolet red lightest, and they destroy less Ether, the equal in magnitude Field of Repulsion arises during inertial motion. As a result, during inertial motion from the emitting them chemical element in the composition of total flow the blue heavy visible and the red ultraviolet  lightest photons will become to move with the equal speed.
Taken together, the blue visible and the red ultraviolet photons form in the spectrum the strip of violet color.

Besides the mentioned red heaviest and red visible photons of the medium gravity, naturally, there exist and red light visible photons.  We can not see them. However they together with the blue heaviest infrared, which we also can't see, form the violet infrared color. If we could see it, it would have been the same violet as visible.

среда, 23 марта 2016 г.

OPTICS AND THE THEORY OF COLOR - 03. THE MAIN OPTICAL PHENOMENA

03. THE MAIN OPTICAL PHENOMENA

Optics is studying the optical phenomena - i.e. the laws of behavior of electromagnetic waves of visible range (and close to it other ranges) spreading in various mediums and bodies consisting of the chemical elements. Let's list all existing optical phenomena.
1) The emission of light;
2) The absorption of light;
3) The reflection of light;
4) The transmission of light;
5) The refraction of light;
6) The scattering of light.
Respectively, if we think that "light" - this is a flow of elementary particles of a certain quality, then we will consider all listed optical phenomena  not only in relation to visible photons, but also in relation to all other types of elementary particles.

It is very difficult to describe the optical phenomena separately of each other, because they are mutually interwoven and one accompanies the other. Processes of absorption and reflection can proceed in parallel. Reflection is always accompanied by the emission and absorption. Refraction and reflection underlie the scattering. And the reason of refraction and absorption is the same. And finally transmission always begins with emission or reflection, it is observed during this albeit insignificant scattering, and transmission ends eventually by absorption. Here such a relationship exists between the optical phenomena. And if to be precise - between the features of behavior elementary particles in physical media consisting of the chemical elements.