Radon%E1%88%AB%E1%8B%B6%E1%8A%95Rad%C3%B3n%D8%B1%D8%A7%D8%AF%D9%88%D9%86Rad%C3%B3nRadon%D0%A0%D0%B0%D0%B4%D0%BE%D0%BD%D0%A0%D0%B0%D0%B4%D0%BE%D0%BD%D0%A0%D0%B0%D0%B4%D0%BE%D0%BD%E0%A4%B0%E0%A5%87%E0%A4%A1%E0%A4%BE%E0%A4%A8%E0%A6%B0%E0%A7%87%E0%A6%A1%E0%A6%A8%E0%BD%91%E0%BD%96%E0%BC%8B%E0%BD%A2%E0%BE%B3%E0%BD%B4%E0%BD%84%E0%BC%8B%E0%BC%8DRadonRadonRad%C3%B3RadonRadon%DA%95%D8%A7%D8%AF%DB%86%D9%86RadoneRadonRadon%D0%A0%D0%B0%D0%B4%D0%BE%D0%BDRadonRadonRadon%CE%A1%CE%B1%CE%B4%CF%8C%CE%BD%CE%B9%CE%BFRadonRadonoRad%C3%B3nRadoonRadon%D8%B1%D8%A7%D8%AF%D9%88%D9%86RadonRadonRadonRadoonRadonRad%C3%B3n%E6%B0%A1Radon
about
radon-195radon-195mradon-196radon-197radon-197mradon-198radon-199radon-199mradon-200radon-201radon-201mradon-202radon-203radon-203mradon-204radon-205radon-206radon-207radon-207mradon-208radon-209radon-209m1radon-209m2radon-210radon-210m1radon-210m2radon-210m3radon-211radon-212radon-213radon-214radon-214mradon-215radon-216radon-217radon-218radon-221radon-223radon-224radon-225
P279
P301
P527
P828
Healthy worker survivor bias in the Colorado Plateau uranium miners cohortA new way to look at old questions of silica carcinogenicityThe role of toxicological science in meeting the challenges and opportunities of hydraulic fracturingEffect of housing factors and surficial uranium on the spatial prediction of residential radon in IowaIowa radon leukaemia study: a hierarchical population risk model for spatially correlated exposure measured with errorSilicosis and lung cancer in U.S. metal minersLung cancer in radon-exposed miners and estimation of risk from indoor exposureExposure assessment for a cohort of workers at a former uranium processing facilityOccupational radon exposure and lung cancer mortality: estimating intervention effects using the parametric g-formulaAge specific interactions between smoking and radon among United States uranium minersField comparison of commercially available short-term radon detectorsField investigation of surface-deposited radon progeny as a possible predictor of the airborne radon progeny dose rateRoom model based Monte Carlo simulation study of the relationship between the airborne dose rate and the surface-deposited radon progenyEstimation of groundwater radon in North Carolina using land use regression and Bayesian maximum entropyComparative survey of outdoor, residential and workplace radon concentrationsA comparison of winter short-term and annual average radon measurements in basements of a radon-prone region and evaluation of further radon testing indicatorsThe radon transform inversion using momentsRadon and cancers other than lung cancer in underground miners: a collaborative analysis of 11 studiesA nested case-control study of lung cancer among silica exposed workers in ChinaEpidemiologic problems associated with exposure to several agentsModifiers of exposure-response estimates for lung cancer among miners exposed to radon progenyCurrent occupational exposures in chinese iron and copper minesVariation in yearly residential radon concentrations in the upper midwestMortality among Navajo uranium minersEnvironmental factors in cancer: radonHealth hazard evaluation report: HETA-2004-0094-2978, National Park Service, Hot Springs, ArkansasHealth hazard evaluation report: evaluation of employee health concern and suspected contamination at an office complexHealth hazard evaluation report: HETA-2011-0090-3161 evaluation of exposure to radon progeny during closure of inactive uranium mines - ColoradoHealth hazard evaluation report: HETA-2011-0031-3167, evaluation of radon levels at a U.S. government facility - MaineOccupational causes of lung cancerEvaluaton of occupational exposures among radon mitigation workerrsMortality patterns among miners and millers of non-asbestiform talc: preliminary reportEnvironments for peopleRock sealant restricts falling barometer effectThe Swedish Experience with Diesel Engines in Underground MiningProgress Report. Lung Cancer Mortality Among Underground Uranium Miners With Low Lifetime Exposures To Radon DaughtersAmerican Uranium Miners and Lung CancerMonitoring and control of radon hazardsMathematical modeling of time dependent radon flux problemsCommercial applications of radon mitigation techniques
P921
description
86 zenbaki atomikoa duen elementu kimikoa
@eu
Vzácný plyn
@cs
alkuaine
@fi
chemical element with the atomic number of 86
@en
chemický prvok s protónovým číslom 86
@sk
chemisches Element
@de
element químic amb nombre atòmic 86
@ca
element
@nl
elemento chimico con numero atomico 86
@it
elemento químico com número atómico 86
@pt
name
Radon
@de
Radon
@de-ch
Radon
@en-ca
Radon
@en-gb
Radon
@lb
Radon
@li
Radon
@nds
Radon
@no
Radon
@roa-rup
Radon
@sc
type
label
Radon
@de
Radon
@de-ch
Radon
@en-ca
Radon
@en-gb
Radon
@lb
Radon
@li
Radon
@nds
Radon
@no
Radon
@roa-rup
Radon
@sc
altLabel
86Rn
@nn
Radon
@new
Rn
@be-tarask
Rn
@en
Rn
@eo
Rn
@es
Rn
@eu
Rn
@fr
Rn
@gl
Rn
@hu
prefLabel
Radon
@de
Radon
@de-ch
Radon
@en-ca
Radon
@en-gb
Radon
@lb
Radon
@li
Radon
@nds
Radon
@no
Radon
@roa-rup
Radon
@sc