# Difference between revisions of "KJM 5911 Laboratory Exercises List"

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*'''Handling and Measuring Radioactive Material''' - 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 UO<sub>3</sub> from an aquous solution. This sample is then used to investigate basic counting principles and counting statistics. | *'''Handling and Measuring Radioactive Material''' - 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 UO<sub>3</sub> from an aquous solution. This sample is then used to investigate basic counting principles and counting statistics. | ||

*[[Lab Exercise with 234Th/234Pa Radionuclide Generator|'''The <sup>234</sup>Th/<sup>234</sup>Pa Radionuclide Generator''' ]]- A <sup>234</sup>Th/<sup>234</sup>Pa radionuclide generator is prepared by extracting thorium on a DOWEX ion-exchanger collumn. <sup>234</sup>Pa is milked from this collumn and the half life is determined. | *[[Lab Exercise with 234Th/234Pa Radionuclide Generator|'''The <sup>234</sup>Th/<sup>234</sup>Pa Radionuclide Generator''' ]]- A <sup>234</sup>Th/<sup>234</sup>Pa radionuclide generator is prepared by extracting thorium on a DOWEX ion-exchanger collumn. <sup>234</sup>Pa is milked from this collumn and the half life is determined. | ||

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*'''Liquid-Scintillation Counting (LSC)''' - The basic principles behind LSC is taught by measuring different beta-emitting samples. Quench-correction curves is obtained manually and explained. | *'''Liquid-Scintillation Counting (LSC)''' - The basic principles behind LSC is taught by measuring different beta-emitting samples. Quench-correction curves is obtained manually and explained. | ||

*'''Isotope dilution analysis''' | *'''Isotope dilution analysis''' | ||

− | *'''Neutron activation analysis (NAA)''' | + | *'''Neutron activation analysis (NAA) and Gamma Spectroscopy''' |

*'''Using tracers to investigate liquid-liquid extraction (LLE)''' - Distribution ratios and yield will be measured using radiotracers. The measurements will be done with HPGe gamma-detectors and calibrating and using this is an important part of the exercise. | *'''Using tracers to investigate liquid-liquid extraction (LLE)''' - Distribution ratios and yield will be measured using radiotracers. The measurements will be done with HPGe gamma-detectors and calibrating and using this is an important part of the exercise. | ||

*'''Szilard-Chalmers reaction''' | *'''Szilard-Chalmers reaction''' |

## Revision as of 09:42, 17 October 2011

KJM 5911 is taught at the University of Oslo (UiO). Go here for more information.

List of Laboratory Exercises:

**Handling and Measuring Radioactive Material**- 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 UO_{3}from an aquous solution. This sample is then used to investigate basic counting principles and counting statistics.**The**- A^{234}Th/^{234}Pa Radionuclide Generator^{234}Th/^{234}Pa radionuclide generator is prepared by extracting thorium on a DOWEX ion-exchanger collumn.^{234}Pa is milked from this collumn and the half life is determined.**Liquid-Scintillation Counting (LSC)**- The basic principles behind LSC is taught by measuring different beta-emitting samples. Quench-correction curves is obtained manually and explained.**Isotope dilution analysis****Neutron activation analysis (NAA) and Gamma Spectroscopy****Using tracers to investigate liquid-liquid extraction (LLE)**- Distribution ratios and yield will be measured using radiotracers. The measurements will be done with HPGe gamma-detectors and calibrating and using this is an important part of the exercise.**Szilard-Chalmers reaction****Working with large amounts of radioactivity**