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Radioanalytical Chemistry
BERND KAHN 1.1. Background Radioanalytical chemistry is devoted to analyzing samples for their radio- clide content. For this purpose, the strategies of identifying and purifying the radioelements of interest by chemical methods, and of identifying and meas- ing the disintegration rate ( activity )...
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| Format : | Livre |
| Langue : | anglais |
| Titre complet : | Radioanalytical Chemistry / edited by Bernd Kahn. |
| Publié : |
New York, NY :
Springer New York
, [20..] Cham : Springer e-books Springer Nature |
| Accès en ligne : |
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| Condition d'utilisation et de reproduction : | Conditions particulières de réutilisation pour les bénéficiaires des licences nationales : https://www.licencesnationales.fr/springer-nature-ebooks-contrat-licence-ln-2017 |
| Contenu : | Radiation Detection Principles. Analytical Chemistry Principles. Radioanalytical Chemistry Principles and Practices. Sample Collection and Preparation. Applied Radioanalytical Chemistry. Preparation for Sample Measurement. Applied Radiation Measurements. Radionuclide Identification. Data Calculation, Analysis, and Reporting. Quality Assurance. Methods Diagnostics. Laboratory Design and Management Principles. Laboratory Safety. Automated Laboratory and Field Radionuclide Analysis Systems. Chemistry Beyond the Actinides. Mass Spectrometric Radionuclide Analyses |
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| Documents associés : | Autre format:
Radioanalytical chemistry |
| Résumé : | BERND KAHN 1.1. Background Radioanalytical chemistry is devoted to analyzing samples for their radio- clide content. For this purpose, the strategies of identifying and purifying the radioelements of interest by chemical methods, and of identifying and meas- ing the disintegration rate ( activity ) of radionuclides by nuclear methods, are combined. Radioanalytical chemistry can be considered to be a specialty in the subdiscipline of nuclear and radiochemistry. This textbook was written to teach radioanalytical chemistry in the classroom and support its application in the laboratory. Its emphasis is on the practical - pects of the specialty, notably setting up the laboratory, training its staff, and operating it reliably. The information presented herein, outlined in Section 1.4, is the accumulated product of a century of nuclear chemistry and radiochemistry practice. Radioanalyticalchemistrywas?rstdevelopedbyMme.M.Curie,withcontri- tionsbymanyotherdistinguishedresearchers,notablyE.RutherfordandF.Soddy. These pioneers performed chemical separations and radiation measurements on terrestrial radioactive substances during the 20 years following 1897 and in the process created the very concept of radionuclides. Their investigations de?ned the three major radiation types, con?rmed the emission of these radiations by the nucleus and the associated atomic transformations, established the periodic table between bismuth and uranium, and demonstrated the distinction between stable and radioactive isotopes. Thereafter, cosmic rays were observed and explained, and many cosmic-r- produced radionuclides were identi?ed. The number of known and charact- ized radionuclides increased dramatically with the development and application of nuclear-particle accelerators in the 1930s and nuclear-?ssion reactors in the 1940s |
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| ISBN : | 978-0-387-34123-1 |
| DOI : | 10.1007/0-387-34123-4 |