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Alan Marcus
Alan Marcus
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We see with our eyes and brain. When we move from place to place under different lighting conditions, our eye/brain combination make adjustments. In other words, we undergo color adaption and dark adaptions, these are involuntary functions. This action is eye independent. Place a colored filter over one eye only and glance about. The filter can be photographic or colored candy wrappers. The key thing, filter only one eye, hold the filter in place for a minute or two. Now remove the filter and look about blinking fist the left than right eye. You will then see the magnitude of this involuntary white balance and sensitivity adjustment.

This eye/brain action far exceeds the speed and magnitude of the camera in this regard. Bottom line, you can show off color images, but they will not likely match what we humans experience.

This eye/brain magic is the secretion rhodopsin, a dye (visible voletviolet) that bathes the light sensitive cells of the eye and changes their sensitivity to match environmental conditions.

Try the above experiment, you will wounder and be amazed.

We see with our eyes and brain. When we move from place to place under different lighting conditions, our eye/brain combination make adjustments. In other words, we undergo color adaption and dark adaptions, these are involuntary functions. This action is eye independent. Place a colored filter over one eye only and glance about. The filter can be photographic or colored candy wrappers. The key thing, filter only one eye, hold the filter in place for a minute or two. Now remove the filter and look about blinking fist the left than right eye. You will then see the magnitude of this involuntary white balance and sensitivity adjustment.

This eye/brain action far exceeds the speed and magnitude of the camera in this regard. Bottom line, you can show off color images, but they will not likely match what we humans experience.

This eye/brain magic is the secretion rhodopsin, a dye (visible volet) that bathes the light sensitive cells of the eye and changes their sensitivity to match environmental conditions.

Try the above experiment, you will wounder and be amazed.

We see with our eyes and brain. When we move from place to place under different lighting conditions, our eye/brain combination make adjustments. In other words, we undergo color adaption and dark adaptions, these are involuntary functions. This action is eye independent. Place a colored filter over one eye only and glance about. The filter can be photographic or colored candy wrappers. The key thing, filter only one eye, hold the filter in place for a minute or two. Now remove the filter and look about blinking fist the left than right eye. You will then see the magnitude of this involuntary white balance and sensitivity adjustment.

This eye/brain action far exceeds the speed and magnitude of the camera in this regard. Bottom line, you can show off color images, but they will not likely match what we humans experience.

This eye/brain magic is the secretion rhodopsin, a dye (visible violet) that bathes the light sensitive cells of the eye and changes their sensitivity to match environmental conditions.

Try the above experiment, you will wounder and be amazed.

Source Link
Alan Marcus
Alan Marcus
  • 39.7k
  • 3
  • 50
  • 92

We see with our eyes and brain. When we move from place to place under different lighting conditions, our eye/brain combination make adjustments. In other words, we undergo color adaption and dark adaptions, these are involuntary functions. This action is eye independent. Place a colored filter over one eye only and glance about. The filter can be photographic or colored candy wrappers. The key thing, filter only one eye, hold the filter in place for a minute or two. Now remove the filter and look about blinking fist the left than right eye. You will then see the magnitude of this involuntary white balance and sensitivity adjustment.

This eye/brain action far exceeds the speed and magnitude of the camera in this regard. Bottom line, you can show off color images, but they will not likely match what we humans experience.

This eye/brain magic is the secretion rhodopsin, a dye (visible volet) that bathes the light sensitive cells of the eye and changes their sensitivity to match environmental conditions.

Try the above experiment, you will wounder and be amazed.