Gonna go to the park and try it on the sexy girls to see if I can get a glimpse of the precious.

First, I have to see if it will work, so I layed out some clothes to try it on. Which one do you guys wanna see? (srs)

http://i273.photobucket.com/albums/jj218/CarbonatedTsoda/Shirts01-1.jpg

you tricked me OP! the blue one on the top right

3rd one

are the collar starched? how does one starch a collar? what is in "starch"?

Just tried the blue one, it doesn't work? Wtf, maybe it's too thick of a cloth. If I add another adapter to the side, along with a higher watt power, it might penetrate the think cloth. Doesn't matter tho, since it's summertime, the girls will be wearing thin clothing haha

you need more gamma rays!!!!

you need more gamma rays!!!!

STFU, you know nothing. This has nothing to do with gamma rays, what the hell are you thinking?

Gamma radiation, also known as gamma rays (denoted as γ), is electromagnetic radiation of high frequency (very short wavelength). They are produced by sub-atomic particle interactions such as electron-positron annihilation, neutral pion decay, radioactive decay, fusion, fission or inverse Compton scattering in astrophysical processes. Gamma rays typically have frequencies above 1019 Hz, and therefore have energies above 100 keV and wavelength less than 10 picometers, often smaller than an atom. Gamma radioactive decay photons commonly have energies of a few hundred keV, and are almost always less than 10 MeV in energy.

Gamma radiation, also known as gamma rays (denoted as γ), is electromagnetic radiation of high frequency (very short wavelength). They are produced by sub-atomic particle interactions such as electron-positron annihilation, neutral pion decay, radioactive decay, fusion, fission or inverse Compton scattering in astrophysical processes. Gamma rays typically have frequencies above 1019 Hz, and therefore have energies above 100 keV and wavelength less than 10 picometers, often smaller than an atom. Gamma radioactive decay photons commonly have energies of a few hundred keV, and are almost always less than 10 MeV in energy.

I take back what I said. I apologize good sir. I will let you know the results of this conundrum shortly.