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Variacao na captacao do I-131 em roedores (Rattus norvergicus) - principalmente em relacao com o ciclo estralBARNABE, VALQUIRIA H. 09 October 2014 (has links)
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00908.pdf: 447464 bytes, checksum: 2932d702c88b5e8d3f57989685245d3a (MD5) / Dissertacao (Mestrado) / IEA/D / Instituto de Biociencias, Universidade de Sao Paulo - IB/USP
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Contribuicao a determinacao da vazao solida de arraste em leitos arenosos, utilizando tecnicas radioisotopicasSANCHEZ, WLADIMYR 09 October 2014 (has links)
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00352.pdf: 3190148 bytes, checksum: 1f8d25da120a988cb927b2fef8860fdb (MD5) / Tese (Doutoramento) / IEA/T / Instituto de Geociencias, Universidade de Sao Paulo - IG/USP
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The analysis of alpha-rays and the structure of radioactive nucleiBowden, B. Vivian January 1934 (has links)
No description available.
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The precise intercomparison of lead isotope ratiosKollar, Francis January 1960 (has links)
The isotopic constitution of lead became important in geophysics as the lead-uranium and lead-thorium methods of absolute geological age determination were established. Interest in the isotopic abundances of common lead in lead minerals was a natural development. The interpretations of observed variations in lead isotope ratios has been more simple than had been expected twenty years ago when the first measurements of this kind were made by A. 0. Nier, and results have been obtained that are of very great importance to geophysics. Consequently this field is now expanding very rapidly. Many interpretations now being made are limited by the available precision of the measurements, which is of the order of several tenths of a per cent.
A mass spectrometer laboratory was set up in the Department of Physics at The University of British Columbia, and a mass spectrometer capable of measuring heavy elements with high precision was designed and constructed. It is a 90 degree sector, 12 inch radius, direction focusing instrument with a copper tube and using a modified Nier-type gas source. It is essentially of orthodox design, but special attention was given to try to eliminate small sources of error. To establish more stable source conditions, an exceptionally stable filament emission control was constructed and purified lead tetramethyl samples were used. The ion beam was measured with a servo-voltmeter of original design that is capable of a high precision. Readings can be made from a calibrated dial on the voltmeter eliminating sources of error in the usual chart recorder. Tests have shown that the improvement in precision warrants this step. This mass spectrometer is believed to be the first to use extensively transistorized circuits.
Error was reduced further by comparing each sample measured with a standard within reasonably short intervals of time (about twenty minutes). Three comparisons were made to loop two samples with the standard, and the looping error was determined and distributed around the loop. The analyses obtained in this way were compared with existing analyses from other laboratories, and an improvement in precision between a factor of five and a factor of ten seems to have been obtained.
To demonstrate the precision obtainable with this mass spectrometer and with the improvement in operating techniques, analyses were made on the isotopic composition of leads from Broken Hill and Mount Isa, Australia. It was previously known that the leads are very similar in composition at both localities. From these new measurements it was established that the Broken Hill and Mount Isa deposits contain lead of distinctly different isotopic composition. In both deposits the isotope ratios were found less variable than could be inferred from previous measurements. A fine structure was found in the isotope ratios in both localities. These small variations indicate contaminations due to radiogenic leads. Values of the thorium/uranium ratios of the source of contamination were estimated. The precision of analyses made it possible to determine an age difference between the Mount Isa and Broken Hill deposits of 40 million years. / Science, Faculty of / Physics and Astronomy, Department of / Graduate
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Neutron fluences by numerical simulation and activation analysisKovalski, Shlomo. January 1983 (has links)
No description available.
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Radioactive isotopes of europium /Mack, Rex Charles January 1953 (has links)
No description available.
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Radioisotopes of gallium /Woodward, Richard Lewis January 1952 (has links)
No description available.
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Structural analysis of thyroid hormones by EXAFS and molecular simulation : biological effects of '1'2'5IAdil-Smith, Iran January 1997 (has links)
No description available.
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The isotope hydrology of the River Dee, North East ScotlandSpeed, Mark January 2011 (has links)
Identifying how the dominant runoff processes of sub-catchments integrate to determine hydrological responses at larger scales (> 1000 km2) remains a major challenge in hydrology. At these larger scales, major environmental differences such as climate, geology and land use may have increased influence on runoff dynamics. While process investigations at smaller scales (< 10km2) have been important in establishing the influence of topography and soils on runoff generation, more research at larger spatial scales is needed, since it is at such scales where important water management decisions are made in relation to applied problems such as floods and droughts. Tracers, such as stable isotopes of water, have proven utility as tools since they reflect the integration of processes at much smaller scales. In addition, geochemical tracers, such as alkalinity, help identify the geographical sources of runoff in larger catchments. This thesis focuses on their use to study catchment hydrological processes in the River Dee (~2,100 km2), NE Scotland, and to determine how these processes integrate at larger scales. Runoff from soil derived hydrological responsive pathways dominates during high flow facilitating a relatively rapid translation of precipitation isotope signatures into the channel network. Increased coverage of responsive soils resulted in reduced Mean Transit Time (MTT) estimates. High coverage of freely draining soils and certain landscape features often resulted in greater MTT estimates. Small scale heterogeneity appears to be averaged out at larger scales with MTTs indicating that the montane headwaters of the river are the dominant source of runoff. Transit Time Distributions (TTDs) suggest that catchment waters may have transit times of less than 2 weeks during high flows and greater than 10 years in summer baseflows.
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Behavior of certain radionuclides in a marine benthic amphipodCross, Ford A. 22 August 1967 (has links)
Graduation date: 1968
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