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- ...T</math>, and the mean [[absorbed dose]], <math>D_T</math>, in an organ or tissue <math>T</math>: ...blication 26]], 1977 and replaced by equivalent dose in an organ or tissue in [[ICRP Publication 60]], 1991.523 bytes (83 words) - 18:34, 18 August 2021
- The tissue weighted sum of dose equivalent to an organ or tissue from all specified organs and tissues of the body, given by the expression ...ublication 26|Publication 26]] (ICRP, 1977) and replaced by effective dose in [[ICRP Publication 60]] (ICRP, 1991).714 bytes (120 words) - 19:47, 12 September 2019
- ...e organ [[equivalent dose]] from the mean [[absorbed dose]] in an organ or tissue. ...and derive the equivalent dose from the mean absorbed dose in an organ or tissue.3 KB (380 words) - 19:25, 18 August 2021
- ...erial into the body by a Reference Person, where s is the integration time in years. ([[ICRP Publication 103]], 2007) The committed equivalent dose (<math>H_T(τ)</math>) in a tissue or organ <math>T</math> is defined by:558 bytes (92 words) - 19:20, 12 September 2019
- ...gan T is weighted to represent the relative contribution of that tissue or organ to the total, stochastic health detriment resulting from uniform irradiatio ...gan T is weighted to represent the relative contribution of that tissue or organ to the total health detriment resulting from uniform irradiation of the bod3 KB (443 words) - 21:32, 28 March 2021
- The equivalent dose in an organ or tissue is given by: ...th>w_R</math> is the radiation weighting factor. The SI unit of equivalent dose is joule per kilogram (J kg<sup>-1</sup>), and its special name is sievert2 KB (337 words) - 19:32, 12 August 2021
- ...cted activity content in the body or in a given organ (Sv Bq<sup>-1</sup>) or per daily excretion.766 bytes (128 words) - 18:26, 17 August 2021
- ...measureable, physical quantity, while ''equivalent dose'' and ''effective dose'' are specifically for radiological protection purposes.''' </span> ...s up any number of different exposures into a single number that reflects, in a general way, the overall risk. The concept may be complex, but it makes r10 KB (1,410 words) - 21:54, 21 November 2019
- ...tuations are used to consider how best to approach radiological protection in different circumstances.''' ...idered together to help guide the best approach to radiological protection in a particular circumstance.10 KB (1,441 words) - 15:11, 4 November 2019
- ...posed individual. Sometimes referred to as [[dose conversion coefficient]] or factor. ...or concentrations of activity to doses or dose rates such as the external dose rate at a specified distance above a surface with a deposit of a specifie3 KB (506 words) - 18:10, 19 August 2021
- ...amount of [[ICRPædia Guide to the Basics of Ionising Radiation|radiation]] in normal, planned situations.''' </span> ...n dose to an individual. Exceeding a dose limit is contrary to regulations in most countries.6 KB (861 words) - 19:47, 20 June 2019
- ...ting radiation dose ... The term ‘source’ is used to indicate the cause of an exposure, and not necessarily a physical source of radiation ... </blockquo ...n their entirety only to situations in which either the source of exposure or the pathways leading to the doses received by individuals can be controlled19 KB (2,785 words) - 17:58, 23 October 2019
- ...include historical descriptions to help readers better understand the term in a particular context. ...o that specific publication or helpful for a reader to have close at hand, or when introducing new terms to be added to the ICRP Glossary.21 KB (2,194 words) - 14:37, 3 October 2021
- ..._to_Radiological_Protection_in_Healthcare|Guide to Radiological Protection in Healthcare]]!]] ...f name="Pub073">[[ICRP Publication 73]] Radiological Protection and Safety in Medicine. Ann. ICRP 26(2), 1996.</ref>.35 KB (5,227 words) - 18:21, 9 October 2019
