In fission released energy
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The following quantities appear in the problem:
Masse \(m\) / Energie \(E\) /
The following formulas must be used to solve the exercise:
\(E = mc^2 \quad \)
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Exercise:
Calculate the energy released in the following fission reaction: isotopen+isotopeU rightarrow isotopeSr+isotopeXe+ isotopen The masses of the isotopes are mUO mSrO and mXeO and a neutron has a mass of mnO.
Solution:
The mass difference in the reaction is SolQtydmmnX+mUX-mSrX+mXeX+*mnXu SolQtydmkdmX*ncunkg Delta m sscmL-sscmR mn + mU - mSr+mXe+ mn dmS dmkS Einstein's energy-mass-equivalency says that in this fission reaction the energy SolQtyEdmkX*nccn^J SolQtyEvEX/e/ncenMeV E Delta m c^ dmkS qtyncc^ E Ev will be released.
Calculate the energy released in the following fission reaction: isotopen+isotopeU rightarrow isotopeSr+isotopeXe+ isotopen The masses of the isotopes are mUO mSrO and mXeO and a neutron has a mass of mnO.
Solution:
The mass difference in the reaction is SolQtydmmnX+mUX-mSrX+mXeX+*mnXu SolQtydmkdmX*ncunkg Delta m sscmL-sscmR mn + mU - mSr+mXe+ mn dmS dmkS Einstein's energy-mass-equivalency says that in this fission reaction the energy SolQtyEdmkX*nccn^J SolQtyEvEX/e/ncenMeV E Delta m c^ dmkS qtyncc^ E Ev will be released.