angle at which visible light is reflected off the object.
The color of an object depends on the wavelengths of light that are reflected by the object's surface. When light strikes an object, some wavelengths are absorbed while others are reflected. The reflected wavelengths then determine the color that we perceive. For example, an object appears red because it reflects red light and absorbs other colors.
When all colors are absorbed by an object, the object appears black. This is because no light is reflected back to our eyes, resulting in the absence of color and a perception of blackness.
No, the color of an object is the color of light that it reflects, not the color it absorbs. When light shines on an object, the object absorbs some colors and reflects others. The reflected colors are what we see.
Assuming that the light you are shining on the object is white, then the object is also blue. Objects appear a certain color because they reflect that color to our eyes and the rest of the colors in the light are absorbed by the object.
The color that an object appears to be is determined by the wavelengths of light that are reflected off the object and into our eyes. Different colors correspond to different wavelengths of light that are absorbed or reflected by the object's surface.
NO it is not true an OBJECT appears colour because it reflect that colour
The color of an object depends on the wavelengths of light that are reflected by the object's surface. When light strikes an object, some wavelengths are absorbed while others are reflected. The reflected wavelengths then determine the color that we perceive. For example, an object appears red because it reflects red light and absorbs other colors.
If it reflects that color of light, you're eyes will see that color being reflected by the object (when the color is being shown on the object, white light contains 'all' colors of visible light). If an object absorbs a color of light you will tend not to see it coming off of the object. Translation: objects will appear the color(s) of light that it reflects. If an object appears red, it reflects red light.
When all colors are absorbed by an object, the object appears black. This is because no light is reflected back to our eyes, resulting in the absence of color and a perception of blackness.
No, the color of an object is the color of light that it reflects, not the color it absorbs. When light shines on an object, the object absorbs some colors and reflects others. The reflected colors are what we see.
The answer is a blue-green colour.
Assuming that the light you are shining on the object is white, then the object is also blue. Objects appear a certain color because they reflect that color to our eyes and the rest of the colors in the light are absorbed by the object.
The color that an object appears to be is determined by the wavelengths of light that are reflected off the object and into our eyes. Different colors correspond to different wavelengths of light that are absorbed or reflected by the object's surface.
The color of an object is determined by the specific wavelengths of light that are reflected or transmitted by the object. The color we perceive is the sum of the light that is reflected or transmitted, and not the light that is absorbed by the object.
The color produced when objects reflect light depends on the wavelengths of light that are reflected. For example, an object that reflects all visible wavelengths of light appears white, while an object that absorbs all wavelengths appears black. Other colors are produced based on the specific wavelengths that are reflected.
White light contains all the colors mixed together. A colored object has a pigment on its surface that ABSORBS all these colors except one. This one color is reflected back off the object. Thus, as we see the object by this reflected light coming from the object into our eyes, the object appears to be colored.
No. If the object absorbs that color, then there's none left to travelfrom there to your eyes, is there !The color you see is the light that the object couldn'tabsorb, so itbounced from the object to your eyes.