I was not explaining public fear of nuclear power, as you seem to think I was explaining that, I was explaining why it is so hard to scientifically understand the level of danger of radioactivity without exagerating the threats (wheither nuclear power, or other sources of radioactivity).
"Why are you going out of your way to make this complicated when almost no one has any idea what you're talking about?"
I am not making this complicated, I am replying some of the ways why understanding the real dangers of radioactivity are hard to understand, as the post to which I replied asked. It's laudable and pretty rare when a person solicit's a greater level of detail of why a certain class of threats (here radioactivity) is treated as so dangerous by governments and scientists.
No not everyone knows how radiation works, and I specifically consider the comparison to sunburns very disingenious: UV has a shallow penetration depth, and organismms succeed in evolving proteins to absorb the UV in this thin layer of penetration depth in the skin: melanin!
There is no melanin for gamma rays!
That said, of course certain forms and levels of UV can be very dangerous (i.e. ozone producing mercury line in cramped spaces, cataracts, inadequate natural or artificial skin protection,...)
Let me illustrate how Avogadro's constant is essential to understand threats from radioactivity:
Suppose it was a much smaller number, say a hundred, then mole of material consists of ~ 100 molecules/atoms/nuclei (I am knowingly conflating them because I consider orders of magnitude not a pedantic factor of low order).
1. That means that a typical mole of material could only have ~100 future disintegrations, since the radioactive nuclei have a decay chain of a certain length, and we ignore small constant factors. So in this alternative unniverse with small Avogadro number, the same amount in weight or volume of material has much less opportunity to cause mutations.
2. It also means that if we consider a mole of contaminated material from Chernobyl in our alternate world, that we are talking about ~100 nuclei, some of which are radioactive. Then it becomes feasible to sort all matter which we suspect contaminated by say mass spectrometer.
However in our world Avogadro's number is enormous, so for us it is mandatory to monitor radiation levels, and to lock away and protect radioactive materials until they decay.
I agree there certainly EXISTS a straight up FUD campaign, but not all of the resistance to nuclear power is part of this FUD campaign. Just like there is a campaign to manufacturee consent for nuclear power, and not all people pro nuclear power are part of that campaign.
I was not explaining public fear of nuclear power, as you seem to think I was explaining that, I was explaining why it is so hard to scientifically understand the level of danger of radioactivity without exagerating the threats (wheither nuclear power, or other sources of radioactivity).
"Why are you going out of your way to make this complicated when almost no one has any idea what you're talking about?"
I am not making this complicated, I am replying some of the ways why understanding the real dangers of radioactivity are hard to understand, as the post to which I replied asked. It's laudable and pretty rare when a person solicit's a greater level of detail of why a certain class of threats (here radioactivity) is treated as so dangerous by governments and scientists.
No not everyone knows how radiation works, and I specifically consider the comparison to sunburns very disingenious: UV has a shallow penetration depth, and organismms succeed in evolving proteins to absorb the UV in this thin layer of penetration depth in the skin: melanin!
There is no melanin for gamma rays!
That said, of course certain forms and levels of UV can be very dangerous (i.e. ozone producing mercury line in cramped spaces, cataracts, inadequate natural or artificial skin protection,...)
Let me illustrate how Avogadro's constant is essential to understand threats from radioactivity:
Suppose it was a much smaller number, say a hundred, then mole of material consists of ~ 100 molecules/atoms/nuclei (I am knowingly conflating them because I consider orders of magnitude not a pedantic factor of low order).
1. That means that a typical mole of material could only have ~100 future disintegrations, since the radioactive nuclei have a decay chain of a certain length, and we ignore small constant factors. So in this alternative unniverse with small Avogadro number, the same amount in weight or volume of material has much less opportunity to cause mutations.
2. It also means that if we consider a mole of contaminated material from Chernobyl in our alternate world, that we are talking about ~100 nuclei, some of which are radioactive. Then it becomes feasible to sort all matter which we suspect contaminated by say mass spectrometer.
However in our world Avogadro's number is enormous, so for us it is mandatory to monitor radiation levels, and to lock away and protect radioactive materials until they decay.
I agree there certainly EXISTS a straight up FUD campaign, but not all of the resistance to nuclear power is part of this FUD campaign. Just like there is a campaign to manufacturee consent for nuclear power, and not all people pro nuclear power are part of that campaign.