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Books on the topic 'Natural radioactivity'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 May 2024

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1

Horner, Jack K. Natural radioactivity in water supplies. Boulder: Westview Press, 1985.

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2

Preliminary environmental natural radioactivity mapping of Lusaka. Lusaka: Republic of Zambia, Ministry of Finance and National Planning, 2005.

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3

Ciències, Societat Andorrana de. 100 anys del descobriment de la radioactivitat natural: Recull de conferències 1996. [Andorra]: Societat Andorrana de Ciències, 1998.

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4

Environmental radioactivity: From natural, industrial, and military sources. 3rd ed. Orlando: Academic Press, 1987.

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5

F, Gesell Thomas, ed. Environmental radioactivity: From natural, industrial, and military sources. 4th ed. San Diego: Academic Press, 1997.

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6

Richard, Tykva, and Berg Dieter, eds. Man-made and natural radioactivity in environmental pollution and radiochronology. Dordrecht: Kluwer Academic Publishers, 2004.

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7

Tykva, Richard, and Dieter Berg, eds. Man-Made and Natural Radioactivity in Environmental Pollution and Radiochronology. Dordrecht: Springer Netherlands, 2004. http://dx.doi.org/10.1007/978-94-017-0496-0.

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8

Commission of the European Communities. Directorate-General for Environment., ed. Radiological protection principles concerning the natural radioactivity of building materials. Luxembourg: Office for Official Publications of the European Communities, 1999.

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9

California. Dept. of Water Resources. San Joaquin District., ed. Natural radioactivity in ground water of the Western Sierra Nevada. [Fresno, CA]: The Agency, 1990.

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10

Horton, Thomas R. Nationwide occurrence of radon and other natural radioactivity in public water supplies. Montgomery, AL: U. S. Environmental Protection Agency, Office of Radiation Programs, Eastern Environmental Radiation Facility, 1985.

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11

International Symposium on the Natural Radiation Environment (6th 1995 Montréal, Québec). The natural radiation environment VI: Sixth International Symposium on the Natural Radiation Environment (NRE-VI), Montreal, Quebec, Canada, 5-9 June 1995. Edited by Hopke Philip K. 1944-. [Oxford?]: Pergamon, 1996.

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12

Miller, Ronald L. Occurrence of natural radium-226 radioactivity in ground water of Sarasota County, Florida. Tallahassee, Fla: U.S. Geological Survey, 1985.

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13

Karam, P. Andrew. Radioactivity. New York: Chelsea House, 2009.

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14

United States. Congress. House. Committee on Government Operations. Environment, Energy, and Natural Resources Subcommittee. Nuclear Regulatory Commission's agreement states program: Hearing before the Environment, Energy, and Natural Resources Subcommittee of the Committee on Government Operations, House of Representatives, One Hundred Third Congress, first session, August 2, 1993. Washington: U.S. G.P.O., 1994.

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15

Topical, Seminar on Innovative Particle and Radiation Detectors (9th 2004 Siena Italy). Innovative particle and radiation detectors: Proceedings of the 9th Topical Seminar on Innovative Particle and Radiation Detectors, Siena, Italy, 23-26 May 2004. [Amsterdam]: Elsevier, 2006.

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16

E, Falck W., and International Atomic Energy Agency, eds. Applicability of monitored natural attenuation at radioactively contaminated sites. Vienna: International Atomic Energy Agency, 2006.

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17

Vosniakos, Fokion K. Radioactivity Transfer in Environment and Food. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012.

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18

Maiello, Mark L. Radioactive air sampling methods. Boca Raton: Taylor & Francis, 2011.

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19

Horner, Jack K. Natural Radioactivity in Water Supplies. Taylor & Francis Group, 2021.

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20

Horner, Jack K. Natural Radioactivity in Water Supplies. Taylor & Francis Group, 2021.

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21

Horner, Jack K. Natural Radioactivity in Water Supplies. Taylor & Francis Group, 2021.

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22

Horner, Jack K. Natural Radioactivity in Water Supplies. Taylor & Francis Group, 2021.

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23

Horner, Jack K. Natural Radioactivity in Water Supplies. Taylor & Francis Group, 2021.

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24

Fitting, James E., and Arthur J. Jelinek. Studies in the Natural Radioactivity of Prehistoric Materials. University of Michigan, Museum of Anthropology, Publications Department, 2020.

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25

Gesell, Thomas F., and Merrill Eisenbud. Environmental Radioactivity from Natural, Industrial and Military Sources: From Natural, Industrial and Military Sources. Elsevier Science & Technology Books, 1997.

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26

Tykva, Richard, and Dieter Berg. Man-Made and Natural Radioactivity in Environmental Pollution and Radiochronology. Springer, 2010.

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27

Tykva, Richard, and Dieter Berg. Man-Made and Natural Radioactivity in Environmental Pollution and Radiochronology. Springer Netherlands, 2013.

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28

TENR - Technologically En hanced Natural Radiation (Radioactivity in the Environment). Pergamon, 2007.

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29

Gesell, Thomas F., and Steven L. Simon. Environmental Radioactivity, Fifth Edition: From Natural, Industrial, and Military Sources. Elsevier Science, 2012.

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30

(Editor), Richard Tykva, and Dieter Berg (Editor), eds. Man-Made and Natural Radioactivity in Environmental Pollution and Radiochronology (Environmental Pollution). Springer, 2004.

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31

Harvey, M. P. Radiological Consequences of Waste Arising with Enhanced Natural Radioactivity Content from Special Metal and Ceramic Processes. European Communities / Union (EUR-OP/OOPEC/OPOCE), 1994.

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32

(Editor), J. P. McLaughlin, E. S. Simopoulos (Editor), and F. Steinhäusler (Editor), eds. The Natural Radiation Environment VII, Volume 7: Seventh International Symposium on the Natural Radiation Environment (NRE-VII) Rhodes, Greece, 20-24 May 2002 (Radioactivity in the Environment). Elsevier Science, 2005.

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33

(Editor), J. P. McLaughlin, E. S. Simopoulos (Editor), and F. Steinhäusler (Editor), eds. The Natural Radiation Environment VII, Volume 7: Seventh International Symposium on the Natural Radiation Environment (NRE-VII) Rhodes, Greece, 20-24 May 2002 (Radioactivity in the Environment). Elsevier Science, 2005.

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34

Close, Frank. 8. Applied nuclear physics. Oxford University Press, 2015. http://dx.doi.org/10.1093/actrade/9780198718635.003.0008.

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Nuclear physics is a rich and active field. The large amounts of latent energy within the nuclei of atoms can be liberated in nuclear reactors. Together with nuclear weapons, this is the most familiar application of nuclear physics, but ‘Applied nuclear physics’ provides a summary of other applications to industry, medical science, and human health. The phenomenon of natural radioactivity provides beams of particles, which may be used to initiate other nuclear reactions, or to attack tumours in cancer treatment. Forensics via induced radioactivity, nuclear magnetic resonance imaging (NMRI), and positron emission tomography (PET) scans are also described.
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35

Radioactivity (Science Foundations). Chelsea House Pub (L), 2008.

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36

Frid, Christopher L. J., and Bryony A. Caswell. Ongoing issues. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198726289.003.0004.

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Although current understanding of the sources, fate and impacts of many contaminants are now well-known and regulated by national and international bodies and conventions, a number remain problematic. Some are produced in very large quantities (e.g. nutrients, detergents, oil) and others are persistent in the environment (e.g. radioactivity and plastics). All are known threats that have either been ignored, took time to manifest, or have been challenging to manage. For most of these pollutants, regulations exist but changes in the nature (e.g. microplastics) or scale (e.g. increased use of fertilisers, increased livestock culture and sewage production, and changes in energy consumption as the global population grows) may mean existing regulation or management is in some way deficient. For others, (e.g. radioactivity, plastics and threats to biosecurity such as non-native invasive species introductions) the challenges associated with regulation and management are yet to be solved.
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37

Skupio, Rafał. Zastosowanie nieinwazyjnych pomiarów rdzeni wiertniczych do zwiększenia informacji na temat parametrów skał zbiornikowych. Instytut Nafty i Gazu - Państwowy Instytut Badawczy, 2022. http://dx.doi.org/10.18668/pn2022.237.

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The research carried out in the monograph aimed to create a measurement and interpretation system which is to obtain reliable results of well logging with the accuracy of laboratory measurements. Continuous core measurements allow for the generation of logging results without the impact of the borehole and facilitate the depth matching of the core to well log data. Four main chapters can be distinguished in this work: research methodology with a description of the devices used; partial results of core measurements made on various types of rocks; a proposal for a research system, and comprehensive data interpretation for selected boreholes. The methodological part concerned the description of the equipment for continuous measurements of cores in the field of natural gamma radioactivity (K, U, Th) with the application for bulk density measurements using the gamma-gamma method, X-ray fl uorescence spectrometers (XRF) for measuring the chemical composition of rocks and computed tomography (CT) for imaging of the core structure as well as determination of radiological density in Hounsfi eld units (HU). Rock studies were carried out on material representing formations of diff erent lithologies, such as shales, sandstones, limestones, dolomites, anhydrite, siltstones and heterolithic sandstone-siltstone-claystone complexes. The results of measurements made using individual methods have been described in detail and compared with the results of laboratory measurements and well logging data. Test measurements with data processing and interpretation were made on the cores from five boreholes (T-1, O-4, Pt-1, L-7, P-5H), whereas a comprehensive interpretation of the results was carried out for three other boreholes (J-1, P-4, T-2). The new methodology of spectral gamma measurements made it possible to obtain precise concentrations of potassium, uranium and thorium in rocks with high and low radioactivity. The results made it possible to standardise the archival gamma-ray logs made with the Russian-type probes from imp/min to API standard units and to obtain data on the content of K, U, and Th in the core intervals. Using the Cs-137 source in the device for the gamma equipment made it possible to carry out measurements of the bulk density in g/cm3 units. The lithological interpretation based on XRF measurements and mineralogical-chemical models allowed to obtain logs with increased resolution and a more signifi cant number of minerals than was the case with the interpretation of the well logging. In addition, it has been shown that the XRF measurement methodology can be used during the geosteering procedure. The results of the core tests using the CT computed tomography method were presented in combined images and continuous curves of density in HU units. The experience and the presentation of the full scope of measurement and interpretation workflow allowed to propose a procedure for conducting a full range of analyses, considering various types of material provided for research. The procedure considers the full range of analyses as well as the measurements of selected parameters depending on the client’s needs. Keywords: petrophysics, core analyses, XRF spectrometry, computed tomography, gamma profiling, lithological interpretation
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38

Maiello, Mark L., and Mark D. Hoover. Radioactive Air Sampling Methods. Taylor & Francis Group, 2010.

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39

Maiello, Mark L. Radioactive Air Sampling Methods. Taylor & Francis Group, 2010.

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40

Shore, Steven N. Forces in Physics. Greenwood Publishing Group, Inc., 2008. http://dx.doi.org/10.5040/9798400652936.

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Force is one of the most elementary concepts that must be understood in order to understand modern science; it is discussed extensively in textbooks at all levels and is a requirement in most science guidelines. It is also one of the most challenging - how could one idea be involved in such disparate physical phenomena as gravity and radioactivity? Forces in Physics helps the science student by explaining how these ideas originally were developed and provides context to the stunning conclusions that scientists over the centuries have arrived at. It covers the history of all of the four traditional fundamental forces - gravity, electromagnetism, weak nuclear force, and the strong nuclear force - and shows how these forces have, over the years, allowed physicists to better understand the nature of the physical world. Forces in Physics: A Historical Perspective traces the evolution of the concept from the earliest days of the Ancient Greeks to the contemporary attempt to form a GUT (Grand Unified Theory): Aristotle and others in Ancient Greece who developed ideas about physical laws and the introduction of forces into nature; Newton and others in the Scientific Revolution who discovered that forces like gravity applied throughout the universe; the 19th century examinations of thermodynamics and the forces of the very small; and 20th century developments—relativity, quantum mechanics, and more advanced physics—that revolutionized the way we understand force. The volume includes a glossary of terms, a timeline of important events, and a bibliography of resources useful for further research.
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41

Radioactive Air Sampling Methods. CRC, 2008.

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42

Maiello, Mark L., and Mark D. Hoover. Radioactive Air Sampling Methods. Taylor & Francis Group, 2010.

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43

Who was Marie Curie? Grosset & Dunlap, 2014.

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