With such large wavelengths of cellular data, you can't really see very small things. If you consider cellular data with a frequency of 2000 MHz, this will have a much larger wavelength than visible light (400-800 THz). Of course, there is one problem-resolution. Also, this frequency of radiation can "see through" many different materials. Were Superman to go around using his X-Ray vision on anything and anyone around him, hed be spreading around quite a lot of radiation. You know what would be fun? What if Superman could see cell phone signals? This type of radiation is just about everywhere on the surface of the Earth (yes, I know-it's everywhere except in your bedroom where you can never get a good signal). Not only would you see different details in UV light, but there is already plenty of it around-especially if you are outside. The same could be true for ultraviolet light. Sure, you can't really see the insides of a human with infrared but you can see some really cool stuff (and you can see through some things). What if he could see in the infrared region? That would be just like using one of the thermal cameras ( which you should play with if you get a chance). For the present generation of students, another good choice is. Raised by kindly farmers Jonathan and Martha Kent, young Clark discovers the source of his superhuman powers and moves to Metropolis to fight evil. There are some other ways that Superman could see more than a normal human. In Justice League when superman uses X-Ray vision to look at Aquaman you can see that he has modified lungs and bones suitable for swimming. Superman's X-ray vision is indeed a nice thought-experiment for, say, a biology or psychology intro class (or physics, I suppose). Just before the destruction of the planet Krypton, scientist Jor-El sends his infant son Kal-El on a spaceship to Earth.
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