illuminated
Thats the right answer for a plus.
The term used to describe objects that are visible or reflect light is "luminous."
An object that is visible because of reflected light is called "luminous" or "reflective."
The color that an object appears to be depends on the wavelengths of visible light that are absorbed and reflected by the object's surface. Objects absorb certain wavelengths and reflect others, with the reflected wavelengths determining the color we perceive.
Objects that reflect all colors of light appear white because they are reflecting the entire visible spectrum equally. When all colors are reflected, they combine to create white light. This is in contrast to objects that absorb all colors, which appear black because they are not reflecting any light.
Matter is visible because of the way it interacts with light. When light hits an object, some wavelengths are absorbed and some are reflected or transmitted. The reflected or transmitted light carries information about the object's color and appearance, making it visible to our eyes.
The term used to describe objects that are visible or reflect light is "luminous."
An object that is visible because of reflected light is called "luminous" or "reflective."
When visible light strikes an object, it can be absorbed, transmitted, or reflected. The color of the object is determined by which wavelengths of visible light are reflected back to our eyes. Objects that appear white reflect most of the visible light, while objects that appear black absorb most of the visible light.
Because certain objects can absorb specific wavelengths of light(color) and they reflect the waves that they cannot absorb. the reflected wave of light is the visible color of the object.
The color that an object appears to be depends on the wavelengths of visible light that are absorbed and reflected by the object's surface. Objects absorb certain wavelengths and reflect others, with the reflected wavelengths determining the color we perceive.
It is used to observe features of stars, planets, and other celestial objects by their visible light (generated or reflected).
Objects that reflect all colors of light appear white because they are reflecting the entire visible spectrum equally. When all colors are reflected, they combine to create white light. This is in contrast to objects that absorb all colors, which appear black because they are not reflecting any light.
Different materials absorb different wavelengths of visible radiation from sources like the sun or light bulbs. The wavelengths that are not absorbed are reflected as visible radiation, and the color we see depends on the wavelength of that reflected light, with a longer wavelength correlating to more reddish colors, and shorter wavelengths with more bluish colors. White objects reflect all of the visible radiation that strike them, which is why they absorb less heat than black objects, which reflect much less visible radiation.
Different materials absorb different wavelengths of visible radiation from sources like the sun or light bulbs. The wavelengths that are not absorbed are reflected as visible radiation, and the color we see depends on the wavelength of that reflected light, with a longer wavelength correlating to more reddish colors, and shorter wavelengths with more bluish colors. White objects reflect all of the visible radiation that strike them, which is why they absorb less heat than black objects, which reflect much less visible radiation.
In order to see, the eye must receive light; and darkness is the absence of light. Most of the objects we see around us are visible by reflected light -- reflected sunlight or reflected artificial light. Since darkness is the absence of light, there is no light in the darkness to be reflected from chairs, tables, or people to our eyes, and therefore we can not see these objects.
Matter is visible because of the way it interacts with light. When light hits an object, some wavelengths are absorbed and some are reflected or transmitted. The reflected or transmitted light carries information about the object's color and appearance, making it visible to our eyes.
Color is determined by absorption because objects absorb certain wavelengths of light and reflect others. The absorbed wavelengths are not visible to the human eye, while the reflected wavelengths are perceived as color. The color we see is the result of the specific wavelengths of light that are reflected back to our eyes.