The most simplistic answer would be to look at how many light sensitive cells we have- around 120 million, which equates to about 120 megapixels resolution.
A rainbow is composed of light. Light does not reflect light.
White is the most reflective color of light. It reflects all the wavelengths of visible light, making it appear bright and highly reflective.
The human eye is most sensitive to green light and can see it the best compared to other colors. This is why many night vision devices use green light to help improve visibility in low-light conditions.
Normal humans have three different types of cone cells in their eyes. Each type of cone cell responds differently to different wavelengths. One type is most sensitive to a color in the red portion of the spectrum, one is most sensitive to a green hue, and one is most sensitive to blue.There's actually quite a bit of overlap between them, especially the "red" and "green" ones. Your brain sorts out the color of an object based on how much it triggers each of the three types.It is ABSOLUTELY NOT correct to say that you only see red, green, and blue ... if that were true, you wouldn't see a rainbow, you'd see a single line in the red part of the rainbow, a single line in the green part, and a single line in the blue part. You can "trick" your brain into "seeing" yellow by using only red and green light, but that doesn't mean that yellow light "doesn't exist".So the colors you "really see" are all the colors you CAN see.
Yellowish-greenish light.
Both rods and cones are light receptors. Rods are connected many to onr neuron, and are good for detecting low-light and movement, but not color. Cones are one to a neuron and detect color. Both are present in most if not all mammals and avians.
Green eyes are more sensitive to light compared to other eye colors, making them particularly vulnerable in bright environments.
The rods in our eyes are the most light-sensitive receptor cells. They are highly sensitive to low light levels and help us see in dim lighting conditions.
A list of light sensitive drugs can be found in most pharmaceutical books. Many pharmacies will provide customers with a list of light sensitive drugs.
The most simplistic answer would be to look at how many light sensitive cells we have- around 120 million, which equates to about 120 megapixels resolution.
Dilation of the pupil occurs when not enough light is exposed in the area. If plentiful light was to be exposed without warning, the reaction of the person would be determined by how used they are to light or how their DNA codes for it. This determines how sensitive to light they are by default. Eye color should not play a role in how a person reacts to light. Hope this helped
Yellow-green is most sensitive to the human eye.
yellow mate yellow mate
Cone cells, or cones, are one of the two types of photoreceptor cells that are in the retina of the eye which are responsible for color vision as well as eye color sensitivity; they function best in relatively bright light, as opposed to rod cells that work better in dim light.
Most humans eyes are sensitive to wavelengths between about 400 nanometers and 700 nanometers
There can be an numerous amount of answers to this question. Color and brightness do have a relation together because they're both things eyes are sensitive to. Are eyes are very much sensitive to the sun...which is one of the most strongest natural brightnesses our eyes come opon. We, as humans, see color everyday. To sum this up, the relationship between color and brightness is that we both see them in our everyday lives and we are both very sensitie to them throughout our eyes.