Difference between revisions of "Rad (metric)"
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| 1000 rads / [[hour]] | | 1000 rads / [[hour]] | ||
| − | | Organ failure, death within [[hour]]s | + | | Organ failure, death within [[hour]]s. |
| − | | Within the crater of a detonated [[thunderball]] device. | + | | Within the crater of a detonated [[thunderball]] device. <br>Typical radiation tolerance of ordinary microchips. |
|- | |- | ||
| 6 krads / [[hour]] | | 6 krads / [[hour]] | ||
| + | | Typical radiotherapy dose, locally applied. | ||
| | | | ||
| − | |||
|- | |- | ||
| 10 krads / [[hour]] | | 10 krads / [[hour]] | ||
Revision as of 11:29, 20 March 2019
A rad is a unit of measurement of radiation.
Description (Specifications)
A Rad is a unit of absorbed dose of ionizing radiation equal to an energy of 0.1 newtons per gram of irradiated material.
- 1 rad is equal to 10 millisieverts
- The common Imperial usage is simply rad: the name is short enough to make an abbreviation unnecessary.
The rad is related to the millisievert, a unit measuring the radiation dose defined as that producing the same biologic effect in a specified tissue as 1 gray of high-energy x-rays received either from a radioactive source or from other sources such as medical procedures.
- A millisievert is generally a whole body effective dose, but it may also be an equivalent dose received by a particular tissue or organ.
- The common Imperial abbreviation is mSv.
A Radiation Counter is able to measure the local ambient radiation levels.
Generalized Rad Level Table
| Rad Levels | ||
|---|---|---|
| Exposure | Typical Source | Effect |
| 0.001 rads / hour | No negative long term effects. | Dental x-ray |
| 0.01 rads / hour | No negative long term effects. | Chest x-ray |
| 10 rads / hour | Radiation sickness, nausea, eventual recovery likely. | Airborne fallout as a result of a detonated thunderball device. |
| 25 rads / hour | Lowest dose to cause clinically observable blood changes. | |
| 200 rads / hour | Local dose for onset of erythema (reddened skin) in humans. | |
| 400 rads / hour | Acute radiation syndrome in humans. | |
| 1000 rads / hour | Organ failure, death within hours. | Within the crater of a detonated thunderball device. Typical radiation tolerance of ordinary microchips. |
| 6 krads / hour | Typical radiotherapy dose, locally applied. | |
| 10 krads / hour | Rapid fatal whole-body dose. | |
| 400 krads / hour | Rapid organ failure, death within minutes. | Within the magnetosphere of a large gas giant. |
| 1 mrads / hour | Typical tolerance of radiation-hardened microchips | |
Term Usage Example
A Fission power plant may produce hundreds of rads per hour.
History & Background (Dossier)
Effects on health are observed only beyond 10 rads (100 mSv), though long term exposure to substantially lower levels of radiation still presents a severe risk to health. It takes a dose of hundreds of rads to cause injuries that can be fatal in the short term.
The rad was first defined as a unit of measurement on Terra prior to the foundation of the Terran Confederation. Technologists found the rad useful as the concept of the Technology Level and standardized ideas about sophont society development began to take form.[1]
References & Contributors (Sources)
- Frank Chadwick, Dave Nilsen. Fire, Fusion, & Steel (Game Designers Workshop, 1994), 5.
- David Golden, Guy Garnett. Fire, Fusion & Steel (Imperium Games, 1997), 7.
- Marc Miller. T5 Core Rules (Far Future Enterprises, 2013), 615.
- Traveller Wiki Editorial Team
- Author & Contributor: Lord (Marquis) and Master Scout Emeritus Adie Alegoric Stewart of the IISS
- Author & Contributor: Lord (Marquis) and Master of Sophontology Maksim-Smelchak of the Ministry of Science
- ↑ Information provided to the library by Maksim-Smelchak