Difference between revisions of "KJM 5911 Laboratory Exercises List"
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*'''[[KJM5911 Lab Exercise 2 - Radionuclide Generators and Half Life|Lab Exercise 2 - Radionuclide Generators and Half Life]]'''- A <sup>234</sup>Th/<sup>234m</sup>Pa radionuclide generator is prepared by extracting thorium on a DOWEX ion-exchanger collumn. <sup>234m</sup>Pa is milked from this collumn and its half life is determined. | *'''[[KJM5911 Lab Exercise 2 - Radionuclide Generators and Half Life|Lab Exercise 2 - Radionuclide Generators and Half Life]]'''- A <sup>234</sup>Th/<sup>234m</sup>Pa radionuclide generator is prepared by extracting thorium on a DOWEX ion-exchanger collumn. <sup>234m</sup>Pa is milked from this collumn and its half life is determined. | ||
*'''[[KJM5911 Lab Exercise 3 - Gamma Spectroscopy|Lab Exercise 3 - Gamma Spectroscopy]]''' | *'''[[KJM5911 Lab Exercise 3 - Gamma Spectroscopy|Lab Exercise 3 - Gamma Spectroscopy]]''' | ||
− | *[[KJM5911 Lab Exercise 4 - Cyclotron Produced Tracers and Liquid-Liquid Extraction|'''Lab Exercise 4 - Cylotron Produced Activiy and Liquid-Liquid Extraction.'' Short-lived radiotracers produced at with a cyclotron alpha-beam will be used to to investigate liquid-liquid extraction (LLE) of Mo. '' | + | *[[KJM5911 Lab Exercise 4 - Cyclotron Produced Tracers and Liquid-Liquid Extraction|'''Lab Exercise 4 - Cylotron Produced Activiy and Liquid-Liquid Extraction.'' Short-lived radiotracers produced at with a cyclotron alpha-beam will be used to to investigate liquid-liquid extraction (LLE) of Mo. '''''</i>]] |
*[[Liquid Scintillation Counting|'''Lab Exercise 5 - Liquid Scintillation Counting''']] - The basic principles behind LSC is taught by measuring different beta-emitting samples. Quench-correction curves is obtained manually and explained. | *[[Liquid Scintillation Counting|'''Lab Exercise 5 - Liquid Scintillation Counting''']] - The basic principles behind LSC is taught by measuring different beta-emitting samples. Quench-correction curves is obtained manually and explained. | ||
*[[KJM5911 Lab Exercise 6 - Szilard-Chalmers Reaction and Isotope Dilution Analysis|Lab Exercise 6 - Szilard-Chalmers Reaction and Isotope Dilution Analysis]] - Chemical reactions due to free radicals created due to recoiling nuclei. | *[[KJM5911 Lab Exercise 6 - Szilard-Chalmers Reaction and Isotope Dilution Analysis|Lab Exercise 6 - Szilard-Chalmers Reaction and Isotope Dilution Analysis]] - Chemical reactions due to free radicals created due to recoiling nuclei. |
Revision as of 23:30, 14 October 2012
KJM 5911 is taught at the University of Oslo (UiO). Go here for more information.
List of Laboratory Exercises:
- Lab Exercise 1: Basic lab-training, making a uranium source and GM-counting. This is a introduction on how to work in a rad. lab. The student will lern basic radiation protection principles and do some basic work with natural uranium, e.g. prepare a counting sample by filtering UO3 from an aquous solution. This sample is then used to investigate basic counting principles and counting statistics.
- Lab Exercise 2 - Radionuclide Generators and Half Life- A 234Th/234mPa radionuclide generator is prepared by extracting thorium on a DOWEX ion-exchanger collumn. 234mPa is milked from this collumn and its half life is determined.
- Lab Exercise 3 - Gamma Spectroscopy
- Lab Exercise 4 - Cylotron Produced Activiy and Liquid-Liquid Extraction. Short-lived radiotracers produced at with a cyclotron alpha-beam will be used to to investigate liquid-liquid extraction (LLE) of Mo. </i>
- Lab Exercise 5 - Liquid Scintillation Counting - The basic principles behind LSC is taught by measuring different beta-emitting samples. Quench-correction curves is obtained manually and explained.
- Lab Exercise 6 - Szilard-Chalmers Reaction and Isotope Dilution Analysis - Chemical reactions due to free radicals created due to recoiling nuclei.
- Isotopic Exchange Reactions
- Lab Exercise 8 - Working with large amounts of radioactivity