The color you perceive is determined by the wavelength (or frequency) of the light.
If it was determined by the intensity of the light, then a street light would steadily change color
as you approach it, pass it, and recede from it. That might be quite beautiful, actually.
But where I live, it doesn't happen.
Yes
it can be absorbed, reflected, or transmitted through the object. The color of the object is determined by which wavelengths of light are absorbed and which are reflected. This process is the basis for how we perceive color.
The color of an object is influenced by two main factors: the wavelength of light that is reflected or absorbed by the object, and the composition of the object's surface that determines which wavelengths are absorbed and which are reflected.
The color of an opaque object is determined by the wavelengths of light that are absorbed by the object's surface. The color we perceive is a result of the wavelengths that are reflected back to our eyes. Objects appear a certain color because they reflect that color and absorb the rest of the colors in the visible spectrum.
An object's color is determined by the wavelengths of light that are reflected or absorbed by its surface. The object appears to have a certain color because it reflects that color of light while absorbing all other wavelengths. Different materials absorb and reflect light in different ways, leading to a variety of colors.
Some of it is absorbed, some is reflected, and some passes through. How much of each effect happens depends on the wavelength of the light and the composition of the object.
Substances are colored because they absorb certain wavelengths of visible light and reflect others. The absorbed light excites electrons in the substance to higher energy levels, and the reflected light is what we perceive as color. Different substances absorb and reflect different wavelengths of light, resulting in a variety of colors.
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.
Reflected
The object is reflecting red light. When we see an object as red, it appears that color because it is reflecting red light and absorbing other colors in the visible light spectrum.
The color of a translucent object is determined by the wavelengths of light it absorbs and scatters. Different materials absorb and reflect different wavelengths of light, which can create the appearance of color when light passes through the object. The specific properties of the material, such as its chemical makeup and structure, influence which colors are absorbed or transmitted.
Some of it is absorbed, some is reflected, and some passes through. How much of each effect happens depends on the wavelength of the light and the composition of the object.
It can be either reflected or absorbed. E.g. if the object is green, all the colours of light are absorbed except green. Green is reflected and not absorbed.
It can be absorbed and become thermal energy such as by a dark rough brick laying in the sun. It can be absorbed and radiated at a lower frequency (longer wavelength). It can be reflected by a very shiny object and thus not change.
Depending on the object, it may be reflected, absorbed, refracted or internally reflected.
The color of an opaque object is determined by the wavelengths of light that are absorbed by the object's surface. The color we perceive is a result of the wavelengths that are reflected back to our eyes. Objects appear a certain color because they reflect that color and absorb the rest of the colors in the visible spectrum.
the wavelength of the reflected light :)