Difference between revisions of "KJM5911 Lab Exercise 2 - Radionuclide Generators and Half Life"

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(Experimental Procedure)
(Experimental Procedure)
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=== Experimental Procedure ===  
 
=== Experimental Procedure ===  
  
 +
*[[Preparing Solutions for Making 234mPa Generator|Preparing solutions]]
 
*[[How to Make a 234mPa Radionuclide generator|making the <sup>234m</sup>Pa radionuklide generator]]  
 
*[[How to Make a 234mPa Radionuclide generator|making the <sup>234m</sup>Pa radionuklide generator]]  
 
*[[How to Measure the Half Life of 234mPa - with MCA system|how to measure the half life of <sup>234m</sup>Pa (with NaI-detector and MCA)]]  
 
*[[How to Measure the Half Life of 234mPa - with MCA system|how to measure the half life of <sup>234m</sup>Pa (with NaI-detector and MCA)]]  

Revision as of 21:09, 4 October 2012

Learning Goals

  • Understand mother-daughter relations and radioactive equilibrium
  • Understand how a radio-nuclide generator works and how it is used
  • Understand how radioactivity is "growing in"
  • Separate uranium and thorium using a cation-exchanger
  • Training in handling radioactive material and safety procedures
  • Understand the principle of neutron activation
  • Deconvolute a decay curve with two components

Theory

Experimental Procedure


Safety Aspects

  • Chemical safety - nothing particulary dangerous, 2-M HCl and 0.1-M AgNO3 should of course be handled according to normal safety precations. DOWEX residues and waste should be collected and handled according to normal procedures.
  • Rad. safety - very small amounts of uranyl nitrate is used, so rad. safety is mostly about regulations and not a real healt hazzard.
  • Waste handling. All radioactive waste should be collected, logged and deposited in the dedicated rad. waste accumulation are. Remember to collect the DOWEX from the ion-exchange collumns in separate containers as it is contaminated with 24-day 234Th (will be none-radioactive after one year).