Difference between revisions of "KJM5911 Lab Exercise 4 - Szilard-Chalmers Reaction and Liquid-Scintillation Counting"
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*[[Yield in Neutron Activation and Nuclear Reactions|Yield in Neutron Activation and Nuclear Reactions]]<br> | *[[Yield in Neutron Activation and Nuclear Reactions|Yield in Neutron Activation and Nuclear Reactions]]<br> | ||
*[[Neutrons|Neutrons]] | *[[Neutrons|Neutrons]] | ||
− | *The <sup>238</sup>Pu/<sup>9</sup>Be n-source | + | *The <sup>238</sup>Pu/<sup>9</sup>Be n-source |
− | *Nucleus-Recoil Energy in Neutron Capture Reactions | + | *[[Nucleus Recoil-Energy in Neutron Capture Reactions|Nucleus Recoil-Energy in Neutron Capture Reactions]] |
− | *Szilard-Chalmers Reaction | + | *[[Theory for the Szilard-Clalmers Reaction|Szilard-Chalmers Reaction]] |
=== Experimental Procedure === | === Experimental Procedure === |
Revision as of 13:39, 14 November 2012
Learning Goals
After this exercise, you should know about and understand the following topics:
- The difference between radioactivity with or without carrier.
- Szilard-Chalmers method to produce carrier-free radioactive halides.
Theory
- Yield in Neutron Activation and Nuclear Reactions
- Neutrons
- The 238Pu/9Be n-source
- Nucleus Recoil-Energy in Neutron Capture Reactions
- Szilard-Chalmers Reaction
Experimental Procedure
Reports
Safety Aspects