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Books on the topic 'Exposure parameters'

Author: Grafiati
Published: 3 June 2025
Last updated: 6 July 2025

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1

H, Lebovits Allen, Baum Andrew, and Singer Jerome E, eds. Exposure to hazardous substances: Psychological parameters. L. Erlbaum Associates, 1986.

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2

Remec, I. Neutron exposure parameters for capsule 10.05 in the Heavy-Section Steel Irradiation Program tenth irradiation series. Division of Reactor Project Management, Office of Nuclear Reactor Regulation, U.S. Nuclear Regulatory Commission, 1998.

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3

Borg, Erik. Noise-induced hearing loss: Literature review and experiments in rabbits : morphological and electrophysiological features, exposure parameters and temporal factors, variability and interactions. Scandinavian University Press, 1995.

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4

Lawrence, Myers, Moya Jacqueline, Research Triangle Institute, and National Center for Environmental Assessment (Washington, D.C.), eds. Options for development of parametric probability distributions for exposure factors. National Center for Environmental Assessment--Washington Office, Office of Research and Development, U.S. Environmental Protection Agency, 2000.

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5

Singer, Jerome E., Andrew Baum, and Allen H. Lebovits. Advances in Environmental Psychology, Volume 6 : Exposure to Hazardous Substances: Psychological Parameters. Taylor & Francis Group, 2020.

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6

Singer, Jerome E., Andrew Baum, and Allen H. Lebovits. Advances in Environmental Psychology, Volume 6 : Exposure to Hazardous Substances: Psychological Parameters. Taylor & Francis Group, 2020.

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7

Singer, Jerome E., Andrew Baum, and Allen H. Lebovits. Advances in Environmental Psychology, Volume 6 : Exposure to Hazardous Substances: Psychological Parameters. Taylor & Francis Group, 2020.

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8

(Editor), Allen Lebovits, Andrew Baum (Editor), and Jerome E. Singer (Editor), eds. Exposure to Hazardous Substances: Psychological Parameters (Advances in Environmental Psychology, Volume 6). Lawrence Erlbaum, 1986.

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9

Advances in Environmental Psychology, Volume 6 : Exposure to Hazardous Substances: Psychological Parameters. Taylor & Francis Group, 2020.

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10

Neutron exposure parameters for the metallurgical test specimens in the sixth heavy-section steel irradiation series. Division of Engineering, Office of Nuclear Regulatory Research, U.S. Nuclear Regulatory Commission, 1990.

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11

Neutron Exposure Parameters for Capsule 10. 05 in the Heavy Section Steel Irradiation Program Tenth Irradiation Series. United States Government Printing Office, 1998.

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12

Neutron Exposure Parameters for the Dosimetry Capsule in the Heavy Section Steel Irradiation Program Tenth Irradiation Series. United States Government Printing Office, 1998.

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13

A. Bócsai, Zs. Ancsin, Cs. Fernye, et al. Dose-dependent short-term effects of T-2 toxin exposure on lipid peroxidation and antioxidant parameters of laying hens. Verlag Eugen Ulmer, 2015. http://dx.doi.org/10.1399/eps.2015.115.

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14

Clark, Caroline, Jeffrey Cole, Christine Winter, and Geoffrey Grammer. Transcranial Magnetic Stimulation Treatment of Posttraumatic Stress Disorder. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780190205959.003.0005.

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Symptoms of post-traumatic stress disorder (PTSD) often fail to resolve with psychotherapy, pharmacotherapy, or integrative medicine treatments. Given these limitations, there is a continued push to discover treatment methods utilizing novel mechanisms of action. Transcranial magnetic stimulation (TMS) offers a non-invasive and safe method of brain stimulation that modulates neuronal activity in a focal area to achieve excitation or inhibition, and may have utility for patients suffering from PTSD, although, to date, evidence of efficacy is limited. The TMS treatment can be varied to suit the needs of the patient by altering the selection of the specific treatment parameters, such as pulse frequency or stimulation intensity. The weight of evidence to date supports treatment of either the right dorsolateral prefrontal cortex or the medical prefrontal cortex. Coupling treatment with script based exposure therapies may also assist with potentiation of the extinction response. Ultimately, stimulation parameters may be related to secondary downstream effects, and thus current targets may indirectly reverse the underlying neuronal pathophysiology. Given that PTSD is a complex illness with a poorly understood pathophysiology, it often exists with other psychiatric comorbidities or TBI. As such, TMS could be an effective part of a comprehensive treatment program.
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15

Lattman, Eaton E., Thomas D. Grant, and Edward H. Snell. Making the Best Use of Beamtime. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780199670871.003.0006.

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Extracting information from scattering data is very sensitive to the quality of the data. In this chapter data quality characterization is described, including initial data processing procedures to alert the user to potential data quality issues. Accurate buffer subtraction is crucial for correct modeling and analysis of SAS data, and mechanisms for identifying buffer subtraction errors are discussed. Examining SAS parameters such as a function of concentration or exposure is very useful for identifying concentration dependent artifacts or radiation damage that, if unnoticed, can be very detrimental to further analysis, including misinterpreting the results and drawing erroneous conclusions. SAS is often used for analyzing flexible molecules in solution that may be difficult to study with other structural techniques. Qualitative and quantitative assessments of flexibility are described.
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16

McLean, Donald, and Claire-Louise Chapple. CT dosimetry. Oxford University Press, 2015. http://dx.doi.org/10.1093/med/9780199655212.003.0015.

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The computed tomography (CT) medical examination is the highest single source of radiation to the general public in the developed world. Its use is rapidly growing, as is its technical complexity. The primary dosimetry formalism is based on the computed tomography dose index (CTDI), which can be measured in air or in standard phantoms using a calibrated pencil ionization chamber with adaptations for wide beam scanners. Displayed dose parameters can be used with caution to estimate patient organ doses, effective dose, and risk, using a variety of models and software. An understanding of automatic exposure control and the influence of patient size is essential when interpreting dosimetry results. CT examination protocols require optimisation, including the appropriate use of newly available dose reduction features. Particular consideration needs to be given to paediatric CT and to specialist applications such as radiotherapy planning, cardiac CT and volume imaging.
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17

National Aeronautics and Space Administration (NASA) Staff. Effects of Fragmentation Parameter Variations on Estimates of Galactic Cosmic Ray Exposure: Dose Sensitivity Studies for Aluminum Shields. Independently Published, 2018.

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18

Effects of fragmentation parameter variations on estimates of galactic cosmic ray exposure: Dose sensitivity studies for aluminum shields. National Aeronautics and Space Administration, Office of Management, Scientific and Technical Information Program, 1992.

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19

Considerations in the Selection and Evaluation of Interim Petroleum-Based Coatings. AMPP, 1987. https://doi.org/10.5006/nace_rp0487-1987.

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Scope The purpose of this recommended practice is to inform industry of considerations in the selection and performance criteria of interim petroleum-based coatings. Quality control criteria are listed to enable the manufacturer and user to select appropriate test procedures to maintain prescribed standards. Interim petroleum-based coatings, formulated specifically for temporary corrosion prevention, have been used for more than 50 years to prevent a wide variety of corrosion problems. The type of coating selected depends on performance requirements; traditionally, that the coating can: (1) be easily applied, (2) provide corrosion prevention for the exposure and handling parameters outlined, and (3) be removed more readily than conventional coatings. Interim petroleum-based coatings are used throughout the world to protect ferrous and nonferrous parts, assemblies, components, etc., for a few days up to even a year or more. Because they are designed for temporary use, interim petroleum-based coatings can be used to protect metal between manufacturing processes and/or during storage and shipping, and then are normally removed prior to final painting, plating, fabrication, or construction. They are widely used on finished machine tools, boilers, turbines, diesel engines, transportation equipment, earth moving equipment, and other machinery during shipment and storage. This NACE standard recommended practice was prepared by NACE Task Group T-6H-42, a component of Unit Committee T-6H on Coating Materials for Atmospheric Service, and was issued by NACE under the auspices of Group Committee T-6 on Protective Coatings and Linings.
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20

Agency, International Atomic Energy. Approaches for Modelling of Radioecological Data to Identify Key Radionuclides and Associated Parameter Values for Human and Wildlife Exposure Assessments: IAEA TECDOC No. 1950. International Atomic Energy Agency, 2021.

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