Unicity distance: Difference between revisions

Revision as of 11:01, 13 June 2013

The decay energy is the energy released by a radioactive decay. Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting ionizing particles and radiation. This decay, or loss of energy, results in an atom of one type, called the parent nuclide transforming to an atom of a different type, called the daughter nuclide.

Decay calculation

The energy difference of the reactants is often written as Q:

$Q=({\text{Kinetic energy}})_{\text{after}}-({\text{Kinetic energy}})_{\text{before}}\,\!$ $Q=(({\text{Rest mass}})_{\text{before}}\times c^{2})-(({\text{Rest mass}})_{\text{after}}\times c^{2})\,\!$

Decay energy is usually quoted in terms of the energy units MeV (million electronvolts) or KeV (thousand electronvolts).

Types of radioactive decay include

gamma ray
beta decay (decay energy is divided between the emitted electron and the neutrino which is emitted at the same time)
alpha decay

The decay energy is the mass difference dm between the parent and the daughter atom and particles. It is equal to the energy of radiation E. If A is the radioactive activity, i.e. the number of transforming atoms per time, M the molar mass, then the radiation power W is: $W=dm\times \left({\frac {A}{M}}\right)\,\!$ or $W=E\times \left({\frac {A}{M}}\right)\,\!$

Example: ⁶⁰Co decays into ⁶⁰Ni. The mass difference dm is 0.003u. The radiated energy is approximately 2.8 MeV. The molar weight is 59.93. The half life T of 5.7a corresponds to the activity A=(N*(-ln(2)))/T, where N is the number of atoms per mol. Taking care of the units the radiation power for ⁶⁰Co is 17.9 W/g

Radiation power in W/g for several isotopes:

⁶⁰Co: 17.9

²³⁸Pu: 0.57

¹³⁷Cs: 0.6

²⁴¹Am: 0.1

²¹⁰Po: 140 (T=136 d)

⁹⁰Sr: 0.9

References

Radioactivity Radionuclides Radiation by Joseph Magill and Jean Galy, Springer Verlag, 2005

External links

University of Waterloo science

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+{{Nuclear physics}}
+The '''decay energy''' is the [[energy]] released by a [[radioactive decay]]. Radioactive decay is the process in which an unstable [[atomic nucleus]] loses energy by emitting ionizing particles and [[radiation]]. This decay, or loss of energy, results in an atom of one type, called the parent [[nuclide]] transforming to an atom of a different type, called the daughter nuclide.
+==Decay calculation==
+The energy difference of the [[reactant]]s is often written as ''Q'':
+<math>Q = (\text{Kinetic energy})_{\text{after}} - (\text{Kinetic energy})_{\text{before}}\,\!</math>
+<math>Q = ((\text{Rest mass})_{\text{before}} \times c^2) - ((\text{Rest mass})_{\text{after}} \times c^2)\,\!</math>
+Decay energy is usually quoted in terms of the energy units '''MeV''' (million [[electronvolt]]s) or '''KeV''' (thousand electronvolts).
+Types of radioactive decay include
+* [[gamma ray]]
+* [[beta decay]] (decay energy is divided between the emitted [[electron]] and the [[neutrino]] which is emitted at the same time)
+* [[alpha decay]]
+The decay energy is the mass difference ''dm'' between the parent and the daughter atom and particles. It is equal to the energy of radiation ''E''. If ''A'' is the [[Radioactive_decay#Radioactive_decay_rates|radioactive activity]], i.e. the number of transforming atoms per time, ''M'' the molar mass, then the radiation power ''W'' is:
+<math>W = dm \times \left ( \frac{A}{M} \right )\,\!</math>
+or
+<math>W = E \times \left ( \frac{A}{M} \right )\,\!</math>
+Example: [[Cobalt-60|<sup>60</sup>Co]] decays into <sup>60</sup>Ni. The mass difference ''dm'' is 0.003[[Atomic mass unit|u]]. The radiated energy is approximately 2.8 MeV. The molar weight is 59.93. The half life ''T'' of 5.7a corresponds to the activity A=(N*(-ln(2)))/T, where N is the number of atoms per mol. Taking care of the units the radiation power for <sup>60</sup>Co is 17.9 W/g
+Radiation power in ''W/g'' for several isotopes:
+: <sup>60</sup>Co: 17.9
+: <sup>238</sup>Pu: 0.57
+: <sup>137</sup>Cs: 0.6
+: <sup>241</sup>Am: 0.1
+: <sup>210</sup>Po: 140 (T=136 d)
+: <sup>90</sup>Sr: 0.9
+==References==
+[http://www.nucleonica.net/nuclTxtbook.aspx Radioactivity Radionuclides Radiation by Joseph Magill and Jean Galy, Springer Verlag, 2005]
+==External links==
+*[http://www.science.uwaterloo.ca/~cchieh/cact/nuctek/decayenergy.html University of Waterloo science]
+{{phys-stub}}
+[[Category:Nuclear physics]]

Unicity distance: Difference between revisions

Revision as of 11:01, 13 June 2013

Decay calculation

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