> PS Sieverts are a physical measure, Greys are a measure of biological "harm".

The US's NRC disagrees with you. From [0], they say this about the sievert and rem:

  Dose equivalent
      A measure of the biological damage to living tissue as a result of radiation exposure. Also known as the " biological dose," the dose equivalent is calculated as the product of absorbed dose in tissue multiplied by a quality factor and then sometimes multiplied by other necessary modifying factors at the location of interest. The dose equivalent is expressed numerically in rems or sieverts (Sv) (see 10 CFR 20.1003). For additional information, see Doses in Our Daily Lives and Measuring Radiation.

and have this to say about the gray:

  Dose, absorbed
      The amount of energy absorbed by an object or person per unit mass. Known as the “absorbed dose,” this reflects the amount of energy that ionizing radiation sources deposit in materials through which they pass, and is measured in units of radiation-absorbed dose (rad). The related international system unit is the gray (Gy), where 1 Gy is equivalent to 100 rad. For additional information, see Doses in Our Daily Lives and Measuring Radiation.

Grays seem to be "amount of radiation absorbed per kg". Looking further, the "Measuring Radiation" page at [1] directly contradicts your claim. Speaking about rems and Svs, it says:

  Dose equivalent (or effective dose) combines the amount of radiation absorbed and the medical effects of that type of radiation. For beta and gamma radiation, the dose equivalent is the same as the absorbed dose. By contrast, the dose equivalent is larger than the absorbed dose for alpha and neutron radiation, because these types of radiation are more damaging to the human body.

I'm definitely not an expert, but the NRC is pretty official, and their explanations sound pretty clear to me. Is what they're saying here incorrect?

> 6.2Sv in a single year is probably less than average for a human from background radiation.

Are you sure about that? <https://xkcd.com/radiation/> claims 4 mSv per year as normal radiation dosage, and 50 mSv per year as maximum permitted annual dosage for "US radiation workers", whatever that means.

I think you're off by a factor of a thousand for the typical exposure level and off by a factor of a hundred for the exposure level where they stop letting you work near the radioactives for a year.

[0] <https://www.nrc.gov/reading-rm/basic-ref/glossary/full-text>

[1] <https://www.nrc.gov/about-nrc/radiation/health-effects/measu...>

No, you are just confused about the technical jargon being used. That text is written for people who have had this jargon hammered into them and is very confusing to people who haven't. This is why people are told to not try to do the calculations themselves.

"Dose absorbed" is a physical measure of ionizing radiation that is directed at something. That's measured in rems or sieverts (or Grays, notice the spelling). "Dose equivalent" is a medical measure of the risk caused by that "Dose absorbed". That's measured in Greys (with an E, not an A). Both those measures combine the count rates for the 4 different types of radiation into 1 amount. "Dose equivalent" goes farther and is meant to calculate medical risk to a living person. Even more confusing there is a Gray (dose absorbed) and a Grey (biological impact of a dose absorbed, or dose equivalent); they are different.

The part about beta and gamma radiation is about establishing a baseline for converting between the two units but should never be used for calculating "dose equivalent" in practice. Its how we determine the value of 1 Grey. It isn't a way to convert from "dose equivalent" to "dose absorbed".

I'm trying to simplify this stuff for an audience without the necessary background information. Doing that requires me cutting out a bunch of details. The NRC text on the other hand is technically precise but also is mentioning a lot of things that are true but confusing or only useful for calibrating instruments. They are also explaining one tiny part of this and you left out the parts where they talk about how to combine the different counts for each type of radiation into one measurement. That's something else I'm also trying to explain at the same time. So I'm covering more ground and trying to do so with simpler terms. That's going to mean you can cherry pick stuff but doing that will to give you the wrong impression.

Natural background radiation varies by location on earth by a factor of 300. That 4 mSv per year is for natural background radiation at the low end of the scale which happens at sea level in places without Uranium or Thorium deposits. However, there are places where people live (and have lived for 1000s of years) where the natural background radiation is 300x that amount or about 1.2Sv/year. There is no observed increase in cancer rates in those locations despite decades of study. I'm also assuming that the "normal person" will take a flight or two and potentially be near other sources of radiation without knowing it (like your smoke detector).

PS The 50 mSv/year number is absurdly low. Its one of the main complaints about how the NRC handles nuclear radiation. Its literally lower than the natural background radiation at sites in India and Brazil.

> Dose equivalent" is a medical measure of the risk caused by that "Dose absorbed". That's measured in Greys (with an E, not an A).

Neither the NRC nor the EPA nor the NIH nor the NRC seems to know about the "Grey". Everyone in the US seems to know about the "Gray" (abbreviated as "Gy"), which is used to measure dose and doesn't factor in biological harm.

What country uses the "Grey" unit? What's the abbreviation of the "Grey" unit? Would you point to credible sources for the answers to those two questions?

> "Dose equivalent" goes farther and is meant to calculate medical risk to a living person.

Yes. That's biological harm. Getting hit on the skin from outside your body with a large amount of alpha radiation is far less harmful than getting hit with the same amount of gamma radiation. AFAICT, "dose equivalent" is measured in Sv or rems.

If you can demonstrate a credible source for the "Grey" unit, then I can dismiss this as a time-wasting misunderstanding, but I've yet to see any reference to a "Grey" unit of radiation exposure.

> Its literally lower than the natural background radiation [at some places on earth]...

Yep. ALARA is a scourge. And I -too- have read Admiral Whatshisface's open letter from the 1980's or 1990's or whenever about how the regulation of the civilian nuclear energy program is batshit nuts by way of being negligently overcautious.

no not sure. yeah I used the an average instrument specific rate. The point is a) everything emits, b) we have no idea on severity from the info, could be a little, could be a lot. Could also be short term (haircut) or longer term (ingested) exposures.

> yeah I used the an average instrument specific rate.

Would you provide a link to the source of this average instrument specific rate?

I'm interested in knowing which instruments designed to detect low-to-medium-level radiation sources on a human are configured so that five detections per second would equate to a "You're fucking dead; there's really no hope for you" dose.

(Did you ask an LLM to "convert counts per minute to mSv" and fail to sanity-check the confident-sounding result it gave you?)

> ...everything emits...

Given that the crust and sea and air of this planet are chock full of radioactives, and that every living thing on the planet builds itself out of that material, that goes without saying.

You need a device that can measure the different types of radiation. Then you have to do a bunch of calculations to estimate absorption. Only then can you calculate Greys which is the measurement that matters.

PS 300 CPM is nothing. There are places where people live where the natural background radiation is higher than that. Also, background radiation is mostly Gamma rays which is more dangerous than what comes off of fission products or nuclear fuel.

> PS 300 CPM is nothing.

That depends on the instrument. It's an instrument-specific rate. I'd say that saying "300 CPM is nothing" absent any information other than the CPM is foolish.

As I indicated earlier, given all of the other context we have, we can reasonably suppose that 300 CPM from whichever instrument was used in this incident is nothing to be concerned about.