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Physical health

Health care Health physics Hearing aids... [Pg.465]

L. G. Eaust, Health Physics Manual of Good Practicesfor Plutonium Handling, PNL-6534, Pacific Northwest Laboratory, Richland, Wash., 1988. [Pg.207]

B. A. J. Lister, Health Physics Aspects of Plutonium Handling, AERE-L151, A ERE, HarweU, U.K., 1964. [Pg.207]

Bernard L. Cohen and l-Sing Lee, A Categoiy of Risks, Health Physics, Vol. 36, Pergamon Press Ltd., London, England, June 1979, pp. 107-722. [Pg.67]

Sheien, B. and Terpilak, M.S. (Eds.), The Health Physics and Radiological Health Handbook. Nueleon Lectern Associates, Inc., 1984. [Pg.1038]

Miller, C.W., Power sourees for irradiation processing the linear accelerator. In Charlesby, A. (Ed.), Radiation Sources. The MacMillan Company, New York, 1964, pp. 197-219. Sehonberg, R.G., Radiation considerations for operation of a portable 6-MeV Electron Linear Accelerator. Proceedings 20th Midyear Topical Symposium, Health Physics Society, Reno, NV, February 8-12, 1987, p. 297. [Pg.1038]

Jantuiien, M., Reponen, A., Kauranen, P., and Vartiainen, M. (1991). Chernobyl fallout in southern and central Finland. Health Physics 60 427-434. [Pg.337]

Ichikawa, R.A.Y.E. 1963 Strontium-calcium discrimination in rats feeding on rice, milk and commercial diets. Health Physics 9 717-720. [Pg.169]

Cember H. 1996. Introduction to health physics. New York., NY McGraw Hill. [Pg.313]

Wolff RK, Griffith WC, Cuddihy RG, et al. 1989. Modeling accumulations of particles in lung during chronic inhalation exposures that lead to impaired clearance. Health Physics 57 61-68. [Pg.587]

Trivedi, A., Galeriu, D., Richardson, R. B., Dose contribution from metabolized organically bound tritium after acute tritiated water intakes in humans, Health Physics 1997, 73, 579-586. [Pg.151]

G. R., Biological half-life of tritium, Health Physics 1963, 9, 911-914. [Pg.151]

Nero, A.V., Indoor Radiation Exposures from 222Rn and its Daughters A view of the Issue, Health Physics, 45 273-288 (1983). [Pg.75]

Stranden, E., L. Berteig, and F. Ugletveit, A Study on Radon in Dwellings, Health Physics 36 413-421 (1979). [Pg.142]

Alter, H. W. and R. L. Fleischer, Passive integrating radon monitor for environmental monitoring, Health Physics, 40 693-702 (1981). [Pg.173]

Annanmaki, M., H. Koskela, M. Koponen, and 0. Parviainen, RADOK An Integrating, Passive Radon Monitor, Health Physics, 44 413-416 (1983). [Pg.173]

Instrumentation for Occupational and Environmental Monitoring, Health Physics, 26 145-163 (1974). [Pg.173]

Dua, S. K., P. Kotrappa, and P. C. Gupta, Infuluence of Relative Humidity on the Charged Fraction of Decay Products of Radon and Thoron, Health Physics, 45 152-157 (1983). [Pg.173]

Ikebe, Y., T. Iida, M. Shimo, H. Ogawa, J. Maeda, T. Hattori, S. Minato, and S. Abe, Evaluation by alpha track Detectors of Rn Concentrations and f Values in the Natural Environment, Health Physics, 49 992-995 (1985). [Pg.174]

A. M. Bhagwat, and S. D. Soman, Passive Measurement of Radon and Thoron Using TLD of SSNTD on Electrets, Health Physics, 43 399-404... [Pg.174]

Fleischer, R.L., Theory of Passive Measurement of Radon Daughter and Working Levels by the Nuclear Track Technique, Health Physics 47 263-270 (1984). [Pg.188]

Jacobi, W., Activity and Potential a-Energy of Radon- and Radon-daughters in Different Air Atmospheres, Health Physics 22 441-450 (1972). [Pg.189]

Rock, R.L., D.B. Lovett, and S.C. Nelson, Radon-daughter Exposure Measurement with Track Etch Films, Health Physics 16 617-621 (1969). [Pg.189]

Schery, S.D., Measurements of Airborne Pb and uRn at Varied Indoor Locations Within the United States, Health Physics 49 1061-1067 (1985). [Pg.189]

Scott, A.G., Radon Daughter Deposition Velocities Estimated from Field Measurements, Health Physics 45 481-485 (1983). [Pg.189]

Skinner, S.W. and P.C. Nyberg, Method for the Calculation of Radon Response Characteristics of Integrating Detectors, Health Physics 45 544-550 (1983). [Pg.189]

Jonassen N., The Determination of Radon Exhalation Rates, Health Physics 45 369-376 (1983). [Pg.222]

Zapalac G.H., A Time-Dependent Method for Characterizing the Diffusion of 222Rn in Concrete, Health Physics 45 377-383 (1983). [Pg.222]

Israeli, M., Deposition Rates of Rn Progeny in Houses, Health Physics 49 1069-1083 (1985). [Pg.302]

Keller, G. and K.H. Folkerts, Ra-222 Concentrations and Decay Products Equilibrium in Dwellings and in the Open Air, Health Physics 47 385-398 (1984). [Pg.302]

Knutson, E.O., A.C. George, J.J. Frey and E. Koh, Radon Daughter Plateout, Part II. Prediction Model, Health Physics 45 445-452 (1983). [Pg.302]

Me Gregor, R.G., P. Vasudev, E.G. Letourneau, R.S. Me Cullough, F.A. Prantl and H. Taniguchi, Background concentrations of radon and radon daughters in Canadian homes, Health Physics 39 285-289 (1980). [Pg.302]

Mercer, T.T., The Effects of Particle Size on the Escape of Recoiling the RaB Atoms from Particulate Surfaces, Health Physics 31 173-175 (1976). [Pg.303]

Concentration of Radon (Rn-222), Thoron (Rn-220) and their Decay Products in Room Air, Health Physics 34 465-473 (1978). [Pg.303]

See other pages where Physical health is mentioned: [Pg.207]    [Pg.441]    [Pg.482]    [Pg.302]    [Pg.15]    [Pg.475]    [Pg.481]    [Pg.294]    [Pg.196]    [Pg.50]    [Pg.102]    [Pg.175]    [Pg.189]    [Pg.341]   
See also in sourсe #XX -- [ Pg.22 ]



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