1 / 9

Understanding Radioactive Decay: Emissions and Processes Explained

This comprehensive guide explores the various types of radioactive decay emissions, including alpha, beta, positron emissions, electron capture, and gamma emissions. It delves into the fundamental processes involved in each type, providing equations and examples to illustrate their occurrences. The outline encompasses key concepts in nuclear physics, aimed at enhancing understanding of how a nucleus loses particles and energy during decay. Concluding with insightful remarks and a bibliography for further exploration, this resource is invaluable for students and enthusiasts alike.

winifred-sarsfield
Télécharger la présentation

Understanding Radioactive Decay: Emissions and Processes Explained

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Radio Active decay By Stephen Goose 422-004 1206455 Argon

  2. Outline • 1. Title • 2. Outline • 3. Alpha Emissions • 4.Beta Emissions • 5. Positrons Emissions • 6. Electron Capture • 7. Gamma Emissions • 8. Conclusions • 9. Bibliography

  3. Alpha Emissions • When two protons and neutrons are emitted from the nucleus! During radioactive decay

  4. . Beta Emissions • A larger neutron. Proton ratio means it needs to be converted into electrons which are from the nucleus • 0n+1p=-1B

  5. , Positron Emissions • When ratio is stable it is emitted with a mass of a electron but with a positive charge. • 38=38+0 • 19K=18Ar+1B

  6. , Electron Capture • When a electron’s inner orbital is captured its own atom’s nucleus. • 106+0=106 • 47 Ag+-1e=46Pd

  7. , Gamma emissions • When gamma rays are emitted from the nucleus to a ground energy state • No equation

  8. Conclusion • So now that you now everything.. Oh wait you don’t! • Radioactive decay- When a nucleus is made lighter by taking out particles. They all come from the atom.

  9. Bibliography • http://library.thinkquest.org/3471/alpha_decay.gif • http://hyperphysics.phy-astr.gsu.edu/hbase/nuclear/beta.html • http://education.jlab.org/glossary/betadecay.gif • http://search.msn.com/images/results.aspx?q=electron+capture&FORM=MSNH&mkt=en- • US#focal=0e0dc41af3c974b2444bf591fb1a6859&furl=http%3A%2F • http://search.msn.com/images/results.aspx?q=gamma+emission+ • &go=Search+Images&form=QBIR#focal=b96cc2acdb02dcac638122fe1ff97f7d&furl=http%3A%2 • F%2Fwww.euronuclear.org%2Finfo%2Fencyclopedia%2Fimages%2Fang_zue.jpg • http://www.dallassd.com/our%20schools/high%20School/Chemsite/nucleareqns/ttypes3.html • %2Fwww.euronuclear.org%2Fimages%2Felektroneneinfange.jpg • US#focal=0e0dc41af3c974b2444bf591fb1a6859&furl=http%3A%2F • http://education.jlab.org/glossary/betadecay.gif • http://library.thinkquest.org/3471/alpha_decay.gif • http://www.dallassd.com/our%20schools/high%20School/Chemsite/nucleareqns/ttypes3.html • http://search.msn.com/images/results.aspx?q=electron+capture&FORM=MSNH&mkt=en- • US#focal=0e0dc41af3c974b2444bf591fb1a6859&furl=http%3A%2F

More Related