Beta plus decay: mass balance?

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SUMMARY

The discussion centers on beta-plus decay, specifically the process where a proton transforms into a neutron, a positron, and an electron-neutrino. It highlights the necessity of external energy for this transformation, as the mass of the resulting particles exceeds that of the original proton. The concept of binding energy in heavier nuclei is crucial, as beta-plus decay can only occur if the original nucleus has a higher binding energy than the remaining nucleus post-decay. This understanding clarifies the mass-energy relationship as described by Einstein's equation E=mc².

PREREQUISITES
  • Understanding of beta decay processes
  • Familiarity with binding energy concepts in nuclear physics
  • Knowledge of mass-energy equivalence (E=mc²)
  • Basic principles of particle physics, including neutrinos and positrons
NEXT STEPS
  • Research the role of binding energy in nuclear stability
  • Explore the differences between beta-plus decay and beta-minus decay
  • Study the implications of mass-energy equivalence in nuclear reactions
  • Investigate the properties and roles of neutrinos in particle physics
USEFUL FOR

Students of radiochemistry, nuclear physicists, and anyone interested in understanding the principles of particle decay and energy transformations in nuclear reactions.

Chem.Stud.
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Hi:

I am taking a radiochemistry class, and I am confused by beta plus decay.

(1) p --> n + positron + electron-neutrino

The mass of a proton is less than the mass of a neutron. In addition, the neutrino has mass as does the positron.

(2) E = mc2

There must be come sort of balance, must there not? Mass cannot be created unless energy is consumed. So where does the nuclei get the energy from to convert a single proton into three different particles, one of which has a larger mass than the proton itself?

I hope I have made my confusion understandable. Also, my macbook would not let me use the greek characters or sub- and superscript.


Anders
 
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The beta-plus decay cannot occur in a single proton due to the need for energy to be supplied from some external source.

See: http://en.wikipedia.org/wiki/Beta_decay

In heavier nuclei, beta-plus decay can occur if the original nucleus has a higher binding energy than the nucleus which remains after the emission of the beta-plus particle.
 
Ahh, that makes sense. Thank you for your help.
 

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