WaveRings may prove to be natural medicines in themselves. There are many tens of thousands of documented pages of research that clearly establish the benefits of color therapy. Color therapy has been around for a long time, and it's likely that color therapy will be with us for some time to come. Technology enables you to take it a step up, shoving more into less time, without stressing out the receptors in your eye or brain.

As with all scientific things, color therapy can be exegetically expounded upon with quorums of the subject's indigenous nomenclature, commonly referred to as technobabble, or it can be broken down into phrases that we can turn into an instant shortcut for producing better results. Basic, communicative phrases. At the MisterShortcut Approach and Healthiest Secrets of Life, the preferred method is a brief, synoptic summary of benefit, and why it works. The perceptive student does not confuse lack of technobabble with any shortage of depth of understanding, experience, and supportive research. The magic tricks available to humans to advance their progress at better speeds than before do not need to be understood with relation to WHY they work, only whether they work, and how to put them to use. Isn't that the essential purpose of a shortcut?

Color Therapy and The Human Brain

Each of your eyes has approximately one hundred and seven million separate receptor cells. Although we call them receptor cells, it's not inaccurate to think of them as individual lenses, or even individual cameras, because each does operate independently, although the information each lens takes in and passes on to the brain must be matched up with many other similarly gathered images in order to make decisions about what is taken in, including the decision to recognize the entire group of images as a unified object or scene. About seven million of these cells or lenses or cameras you possess in each eye serve to distinguish between about seven million of the rich colors of life. The remaining one hundred million receptor cells, again approximated, allow your brain to distinguish between just about one hundred million shades of black, white, and gray.   Whew!

Different colors have different affects upon the human brain. When you look at a color, you're actually looking at a refraction of light being thrown onto a surface. A refraction is the sibling of reflection. Instead of being directly opposite, for example, a refraction is just slice of a reflection, at less of an angle. Obviously, that's oversimplification, which makes it less accurate, so it's only something thrown out to provide a fast bird's eye view. That doesn't make it the most accurate view, thanks to perspective, and depth perception. This magnificently additional, third dimension of vision that humans believe most animals enjoy as well as us, is actually a restricted membership club. Because so many people have that extra edge, it becomes assimilated to the point of devaluation. It is rare for humans to appreciate much of anything when the novelty wears off, from relationships and expensive automobiles to new career or vocation opportunities. Human vision certainly fits into that category as well. Hopefully, color therapy on the steroids of brilliant technology may help you to re-appreciate your tools in order to both preserve their sharp edge and get more fruitful use from the tools we refer to as your twinkling eyes.

As stated, different colors have different affects upon the human brain. Environment, training, and personal experience cause differences in how separate individuals respond. There is no doubt that a chemical exchange takes place in the brain as a result of viewing different colors. In fact, high-speed MRI's now routinely map the regions of the brain that produce adjectives versus or compared to the areas that produce nouns.