if a wave is seen as a rainbow, as it travels, with the different frequencies of the wave stacked, one on top of the other, then we can see, that when this signal, or wave, encounters a medium that is vibrating, at the same frequency, as just one part of the wave, that part of the wave is thus deflected, or degraded, per medium encountered...canceling, or "clipping", that part of the wave--
example:
colors..."r.o.y.g.b.i.v"
i believe the reason we have color, is due to the object that the full-spectrum of light is hitting, is vibrating at the same frequency as part of the full-spectrum wave hitting it, thus "canceling", or deflecting, that part of it--
so, when we see blue, the object is vibrating at the right harmonics to deflect, "clip", or "cancel" blue, from different objects( all things), having different "molecular harmonics"( see "molecular harmonics" post), due to variations in their molecular structure, and temp--
if a full spectrum color wave, encounters one medium, vibrating at one part of that waves frequency, "canceling", or deflecting it( blue), then travels farther, and encounters another medium, that "cancels", or deflects, a different frequency of the wave( red), we then see, the two deflected waves traveling together, back to us... as purple--
i think a proof for these concepts( "wave clipping", and "molecular harmonics"), can be seen in daily life already, every auto mechanic knows that the color of metal changes when heated( a bolt perhaps??), but, i suggest that as the bolt is heated, the reason it's color changes, is due to it's number of collisions per-second increasing( "molecular harmonics")...
explaining exactly why, the color of metal changes from being heated, and showing that color is in fact dependent, on the number of collisions per-second( "molecular harmonics"), of an object a person is viewing--
best wishes, john kruschke--
(cs)
example:
colors..."r.o.y.g.b.i.v"
i believe the reason we have color, is due to the object that the full-spectrum of light is hitting, is vibrating at the same frequency as part of the full-spectrum wave hitting it, thus "canceling", or deflecting, that part of it--
so, when we see blue, the object is vibrating at the right harmonics to deflect, "clip", or "cancel" blue, from different objects( all things), having different "molecular harmonics"( see "molecular harmonics" post), due to variations in their molecular structure, and temp--
if a full spectrum color wave, encounters one medium, vibrating at one part of that waves frequency, "canceling", or deflecting it( blue), then travels farther, and encounters another medium, that "cancels", or deflects, a different frequency of the wave( red), we then see, the two deflected waves traveling together, back to us... as purple--
i think a proof for these concepts( "wave clipping", and "molecular harmonics"), can be seen in daily life already, every auto mechanic knows that the color of metal changes when heated( a bolt perhaps??), but, i suggest that as the bolt is heated, the reason it's color changes, is due to it's number of collisions per-second increasing( "molecular harmonics")...
explaining exactly why, the color of metal changes from being heated, and showing that color is in fact dependent, on the number of collisions per-second( "molecular harmonics"), of an object a person is viewing--
best wishes, john kruschke--
(cs)
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