What Determines the Color of a Pigment?

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SUMMARY

The color of a pigment is determined by the wavelengths of light it absorbs and reflects, specifically related to the electron energy levels of its constituent atoms. When a substance absorbs light, it does so because the energy of the incoming photon matches the energy required to excite an electron to a higher energy level. This results in the reflection of the remaining wavelengths, which define the perceived color. The molecular structure and atomic composition play crucial roles in determining these properties.

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  • Understanding of electron energy levels in atoms
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  • Familiarity with the concept of absorption and reflection of light
  • Knowledge of the periodic table and atomic structure
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aychamo
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Hey guys

Something in my microbiology class today got me thinking.

What is color? I mean, I'm writing this on my laptop computer, and the area around my keyboard is blue. But why is it blue? I know that it is plastic that is dyed blue, so there exists some type of blue pigment on the plastic, but I don't understand what makes a pigment blue.

I mean, at a basic level, everything is just atoms, right? What is it about a certain group of atoms that gives it a particular color?

I figure it has to do something about which wavelenghts of light it absorbs and which ones it reflects, but any more than that I don't understand or have knowledge of.

Thank you
AYCHAMO
 
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your desk is blue because that's mainly the only colour it doesn't absorb. meaning the blue colour gets reflected to your eye.
 
And to be even more specific, a particular substance will absorb light if the atoms in the substance have an electron energy level available near the photon's energy, or if the molecules have a vibrational or rotational mode available near the photon's energy.

The constituent atoms, and the way they are connected in molecules, determines which colors of light a substance can absorb.

- Warren
 
Is there any relation to an elements color and its position in the periodic table, across the rows of the different quantum levels?

Like the example they give for the excited state of an atom, when it absorbs a wavelength of light and it excites an electron to jump up a quantum level, since the atom absorbs that wavelength of light, would that give the atom a color because of the absence of that particular wavelength of light throughout the visible spectrum?
 
Originally posted by aychamo
Is there any relation to an elements color and its position in the periodic table, across the rows of the different quantum levels?

Like the example they give for the excited state of an atom, when it absorbs a wavelength of light and it excites an electron to jump up a quantum level, since the atom absorbs that wavelength of light, would that give the atom a color because of the absence of that particular wavelength of light throughout the visible spectrum?

Not in the sense that you mean it. There is a relationship between the make up of an atom and the and the color of the flame when an element is burned, but when "absorbing and re-emitting" a photon the color of the absorbed and emitted photon will be the same.

Additionally, "metals"- those elements with a lot of "loose" electrons will appear shiny.
 

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