The Law of Reflection and Lasers

AI Thread Summary
The discussion explores the Law of Reflection, focusing on how different objects interact with light of various wavelengths. When a red laser is shone on an object, it reflects the red light, allowing it to be seen, even if the object is not red itself. The conversation highlights that a blue object absorbs most wavelengths except blue, yet still reflects some red light from the laser. The perception of color is influenced by the surrounding ambient light and the object's specific properties. Ultimately, the interaction between light and objects is complex, involving both reflection and absorption.
joejoe1234
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So I've been looking into the Law of Reflection with Specular and Diffuse Reflection. I understand that electrons have a certain vibrational frequency in objects, and if a light wave matches that, that color wouldn't be observed.

My question is, what if I took a red laser pointer and shined it at that same object? If it wasn't red in the first place, shouldn't it technically also absorb that red color? I know it's not the case, cause obviously we see that red dot. Does that red laser pointer follow the law of reflection?
 
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The law of reflection

http://www.colormatters.com/color-and-vision/how-the-eye-sees-color

So sunlight has all the colors and the apple absorbs them except for red and so the red is reflected.

When you shine a red laser on the apple, it simply reflects the red and so you see the red laser dot. The reason you see the dot on a red object is because it may not absorb that specific frequency of red as found in the red laser.
 
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So let's say I have a blue object, which by definition absorbs all wavelengths except blue. If I shine a red laser on it, I still see the red dot. Shouldn't it be absorbing that red wavelength though?
 
joejoe1234 said:
So let's say I have a blue object, which by definition absorbs all wavelengths except blue.
That would require a perfectly blue object.

joejoe1234 said:
If I shine a red laser on it, I still see the red dot.
Then it's not a perfectly blue object.
 
A.T. said:
That would require a perfectly blue object.Then it's not a perfectly blue object.

I think I'm starting to get it. How come though the "not perfectly blue" object only reflects the red light of the red laser pointer but not the sun?
 
joejoe1234 said:
How come though the "not perfectly blue" object only reflects the red light of the red laser pointer but not the sun?
It does reflect some of the sun's red light, but much more blue light, so it appears blue.
 
A.T. said:
It does reflect some of the sun's red light, but much more blue light, so it appears blue.
So when you shine a red laser on it, more red is reflected than blue, so you see a red dot?
 
joejoe1234 said:
So when you shine a red laser on it, more red is reflected than blue, so you see a red dot?
Yes, this could happen. But to perceive a red dot you don't necessarily need more red than blue light coming from that dot. It might be sufficient to have more red light from the dot, than from the surrounding surface. Our brain calibrates our color perception based on background and ambient light.
 

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