SNNLive spoke with Ross McElroy, President and COO of Fission Energy Corp. (FIS:TSX-V) (FSSIF:OTCQX) at the 5th Annual LD Micro Conference 2012 in Los Angele…

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This video gives an overview of how to use the binding energy per nucleon graph to estimate the energy released during a fission reaction. The exact same pro…

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^^^ Kr is 92, not 82 as I’ve written – the calculation is still correct: 92

x 8.7 = 800

Your balance equation shows Ba 144, but your calculations involve Ba 194.

Why is that?

You’ve got a bit confused, I’m afraid. Total binding energy of the source

is, 7.6×235=1786 MeV. I don’t know where you have 7 as the binding energy

for U-235. Then you get a bit confused about whether the Barium is 144 or

194. It is in fact 141, meaning a binding energy of 8.2 x 141 = 1156 MeV.

Krypton should be 82, not 89, making the binding energy 8.7 x 92 = 800. The

mass difference is thus 1786-(1156+800) = 170 MeV. Even Wikipedia gives the

figure as 202.5 MeV. Your answer is 3x too big.

thanks