EPTRadiation relating to Cold Fusion
To research the importance of cold fusion as an alternative energy source and to demonstrate the importance and relevance of radiation in cold fusion. To find out about the history of cold fusion and its importance as an alternative energy source, there was a video watched. The video was one made by a scientist
named Edmund Storms in Los Alamos, New Mexico on http://www.youtube. com/watch?v=ltZhii3g2HY, which informed us of the importance and history of cold fusion. We also learned about the theory of cold fusion and why
physicists don’t believe that cold fusion can occur. We then did some studies at Kiva Labs at 277 Old Church Road, <deleted>, in which there were r^2 studies done to show that radioactive elements emit a sphere of radioactive
particles or rays. Finally, we then theorized why cold fusion exists. In the cold fusion cell in Kiva Labs, the following data was observed. d+d> 3He (.82MeV)+n(2.45)MeV (No problem with physicists) d+d> p(3.02 MeV)+t(1.01MeV)
(No problem with physicists)d+d> 4He+(23.8MeV) (No Gamma), which physicists say defies conservation of momentum, while the cold fusion researchers and ourselves say that cold fusion occurs in a cluster of atoms. These were all observed in both Kiva Labs, and Los Alamos, New Mexico. We
concluded that cold fusion is extremely important as an alternate energy source, because if the theory is correct, we will need only 4 barrels of deuteron a day to
supply the world energy. We have determined that cold fusion occurs in a cluster and that is why conservation of momentum seems to be defied. Radiation is important in cold fusion to determine what gives off energy and what doesn’t.
fyi Kiva Labs is from Macgyver.
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This was a joke made by random freshmen in my school. I had no idea they did this until recently, and it was very funny. The best part is they got approved by the administration. Haha, volunteerism 
