the amount of light around you
The object appears to have the color of the light that it is worst at absorbing. That'sthe color of which the most light remains to be scattered and reflected to your eye.
-- The colors of light that the object absorbsare gone, and aren'tavailable to proceed to your eye.-- The colors of light that the object reflectsproceed from the objectto your eye. They are the colors that the object "looks" to you.
As light passes over it during the course of a day, an object sitting in a stable place changes its color. That's because color is a quality of light as it is reflected from the surface of the object and into the eye.
We see red when red light reaches the retinas in our eyes. A non-luminous object that looks red is absorbing every color of light that hits it except red light, which it reflects.
light that is reflected is what our eyes see. light is made up of all the colours of the spectrum. each 'colour' has its own wavelength say for example a pear, which is green. we see green because the object has absorbed all the other 'colours' and has reflected only the green colour wavelength, which reaches our eye colour receptors and we see green
The object appears to have the color of the light that it is worst at absorbing. That'sthe color of which the most light remains to be scattered and reflected to your eye.
iris
the wave length of light that is absorbed by the object determines color--White refects all eye perceptible colors where as black absorbes The colour of an opaque object is determined by the wavelength of the visible spectrum that it reflects. Light is made up of 7 colours, each having a specific wavelength range. Consider an object which appears green to the eye. Actually the object is not green in colour, it only reflects the waves pertaining to green wavelength range. All other wavelength are either transmitted or absorbed. The reflected wave reaches our retina and is perceived as that colour.
the wave length of light that is absorbed by the object determines color--White refects all eye perceptible colors where as black absorbes The colour of an opaque object is determined by the wavelength of the visible spectrum that it reflects. Light is made up of 7 colours, each having a specific wavelength range. Consider an object which appears green to the eye. Actually the object is not green in colour, it only reflects the waves pertaining to green wavelength range. All other wavelength are either transmitted or absorbed. The reflected wave reaches our retina and is perceived as that colour.
Yes, you can see a color when light of a certain wavelength reaches your eye.
The amount of melanin in the eye determines the eyes color.
The iris receives light and the cone cells located within the cornia determine color
-- The colors of light that the object absorbsare gone, and aren'tavailable to proceed to your eye.-- The colors of light that the object reflectsproceed from the objectto your eye. They are the colors that the object "looks" to you.
The lenses in a microscope diffract (bend) the light as it passes through them. The effect is that an object appears clear and large (is focused and magnified) when the light reaches your eye. Also, microscope designs usually ensure that the object appears right-side-up.
Genes are what determine the color of a persons eyes. However, the concentration of the melanin in the iris of the eye helps determine the pigmentation of the color.
The amount of melanin in the eye determines the eyes color.
The frequency or wavelength of the light reflected from the object to your eye.