Question 25.10: Fission Energy Big Time! Estimate the energy released if all...

Essential College Physics

Fission Energy Big Time!

Estimate the energy released if all the nuclei in 1 kg of uranium undergo fission.

ORGANIZE AND PLAN About 200 MeV are released with each uranium nucleus that fissions. We need the number of nuclei in 1 kg of uranium, which we ll then multiply by 200 MeV.

$\text { Known: Molar mass of }{ }^{235} U \text { is } 235 g / mol \text {; energy released per }$ fission = 200 MeV.

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The number of uranium nuclei is

\text { number of nuclei }=1000 g \times \frac{1  mol }{235  g } \times \frac{6.022 \times 10^{23}  \text { nuclei }}{1  mol }

$=2.56 \times 10^{24} \text { nuclei }$ .

Therefore, the energy released is

$E=200 MeV \left(2.56 \times 10^{24}\right)=5.12 \times 10^{26}$ MeV.

That’s a big number, so we convert to joules:

$E=5.12 \times 10^{26} MeV \times \frac{1.60 \times 10^{-13} J }{1 MeV }=8 \times 10^{13} J$ .

REFLECT That’s still a big number and it’s about what we d get from chemical reactions involving 20,000 tonnes (20 million kg) of chemical reactants. Release it all at once, and you’ve got a bomb. In fact, 1 kg is just about the amount of uranium that fissioned in the bomb that destroyed Hiroshima.

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