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Real reason for damage: The damage itself is caused by the energy transferred within the wave, not the shape of the wavelength itself. If you look at the graph of a wave, the energy is the amount of area contained between the wave line and the 0 line. So, whether you have a red frequency or a purple frequency, if you have a big amplitude, you can still kick it.
[Takes off Spock ears and put back on his flight jacket ]
Gee I thought you'ed by wiping of the data makup Thanks thats whar I was tring to say
Its funny that they use C for the speed of light, implying its a constant when its not. I could be wrong, but I remember reading that the speed of light is no longer considered a constant because it does change under certain circumstances.
Unless red is less "efficient" than purple, it should be the same energy transference anyway...
It's the same as water. Waves closer together (but the same height) might make the water more "choppy", but the same amount of water is moving as in one bigger wave.
If the "power" of the higher frequency is higher, the resultant amplitude MUST be lower
Ok, so I will repeat this question one more time.
How can "energy in" NOT = "energy out"? That's what you guys are saying.
If the "power" of the higher frequency is higher, the resultant amplitude MUST be lower. Because "energy in" DOES EQUAL "energy out".
Look up "conservation of energy".