Thanks. I know that the wavelength of emitted energy decreases as the black body gets hotter and it seemed to me that ALL colors should be radiated between IR and UV. How about a fire poker? I can see it glowing red, then orange, then yellow, then white, But I don't see it radiate in the green ? Is it because it's not a perfect black body?Integral said:The colors radiated depend on the temperature of the body. All colors can be radiated.
It always radiates across the whole spectrum, but in different proportion. Your eye, however, is only sensitive to three overlapping regions which are roughly red, green, and blue. When a black body gets just hot enough to visibly glow, it radiates mostly in the IR, a bit in red, and so little in green and blue that your eye doesn't really pick up on that. You perceive the result as red. As it gets hotter, it starts to radiate more at lower wavelengths. You start seeing orange and yellow. However, what you see is yellow is already due to both red and green receptors in your eye getting excited, as yellow wavelengths are on overlap of the two. As the object gets hotter, the amount radiated in red doesn't reduce significantly, but you start getting more radiated in blue. The appearance turns from yellow to white, since white light excites receptors for red, green, and blue equally. When an object gets hotter yet, amount radiated in blue becomes higher than that in red and green. The object's apparent color shifts from white to blue. From there, it shifts into violet.BarnRat said:Thanks. I know that the wavelength of emitted energy decreases as the black body gets hotter and it seemed to me that ALL colors should be radiated between IR and UV. How about a fire poker? I can see it glowing red, then orange, then yellow, then white, But I don't see it radiate in the green ? Is it because it's not a perfect black body?
BarnRat said:When a black body is heated the colors listed are IR, red, orange, yellow, white, blue-white, UV. Why doesn't a black body radiate all colors when heated: Red Orange Yellow Green Blue Indigo Violet? And why not shades of these colors?
Well, those are not black bodies - not even a good approximation.anaximenes said:The fact that its black dosent make a diffrence it turns red because that's the wavelength that most metals emit when the electrons go into a higher orbit and back. you can make a green fire by burning black ink even though its black. Also copper will burn green even though it won't turn green.
A black body is an object that absorbs all wavelengths of light that fall onto it, making it appear black. It also emits thermal radiation based on its temperature, which is known as black-body radiation.
Yes, a black body emits radiation at all wavelengths, which includes all colors of the rainbow.
This is due to the nature of black-body radiation, which is governed by Planck's law. According to this law, the amount of radiation emitted by a black body at a particular wavelength is directly proportional to the temperature of the object.
No, the human eye is only capable of perceiving a small portion of the electromagnetic spectrum, known as visible light. Black-body radiation emits radiation at all wavelengths, including those outside of the visible spectrum.
No, there are other phenomena that can produce a similar effect, such as a rainbow or a prism. However, black-body radiation is the only natural process that emits radiation at all wavelengths, thus producing all colors of the rainbow.