Comments
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Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
When you say "falsely", are you comparing against actual numbers that you have, or just making this stuff up?If you are trying to falsely represent the virus as grains of sand, or molecules of water relative to two people (Joe and John), then the virus greatly outnumbers the people. Once we are outnumbered, the party is over. — Roger Gregoire
To get a sense of the scale of numbers we're talking about:
https://www.nature.com/articles/nrmicro2644
Now (bolded) that's all viruses, not a particular one.Astronomy is a field that is used to dealing with large numbers, but these can be dwarfed when compared with life on the microbial scale. For instance, if all the 1 × 1031 viruses on earth were laid end to end, they would stretch for 100 million light years. Furthermore, there are 100 million times as many bacteria in the oceans (13 × 1028) as there are stars in the known universe. The rate of viral infection in the oceans stands at 1 × 1023 infections per second, and these infections remove 20–40% of all bacterial cells each day. Moving onto dry land, the number of microorganisms in a teaspoon of soil (1 × 109) is the same as the number of humans currently living in Africa. Even more amazingly, dental plaque is so densely packed that a gram will contain approximately 1 × 1011 bacteria, roughly the same number of humans that have ever lived. Not quite so densely packed but impressive all the same, the bacteria present in the average human gut weigh about 1 kilogram, and a human adult will excrete their own weight in faecal bacteria each year. The number of genes contained within this gut flora outnumbers that contained within our own genome 150-fold, and even in our genome, 8% of the DNA is derived from remnants of viral genomes.
But not that the precise numbers were the point, but there are comparatively about 1019 grains of sand on earth. And in a 20,000 gallon pool, there are about 1031 molecules of water (or at least ballpark in order of magnitude). So there's about as many molecules in a pool as there are viruses on earth.
But the human lung has 480 million alveoli. A severe coronovirus infection may compromise a person's ability to get enough oxygen. But a person can live with a single lung, so at a minimum the infection affects 240 million alveoli.
Now I'm not arguing that there are 1031 coronoviruses; that would be silly. But you seem to severely misaprehend how tiny and numerous these things are. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Okay, maybe it's worse than that. On what do you base this and your equations on?...an irrelevant red herring. — Roger Gregoire
If Joe and John run across the beach, does Joe get half as much sand in his toes than if he ran across alone? If Joe and John jump into a pool does Joe get half as wet than if he was alone? If Joe and John pick apples from an orchard, does Joe pick half as many as he would if John hadn't helped?it distributes a significant portion of the viral load to the healthy immune (who don't die) — Roger Gregoire
If it's not the case that the vast majority of viruses in an environment enter the human body, why would half as many enter Joe's body if John was also there?
ETA: Ah... this is starting to make sense now. You're just bad at math, aren't you? You aren't actually imagining any mechanism by which your equations fall out... you just see a distribution and a number and think division simply applies. This would explain the odd way you do probabilities and why there's 100 people in this poor vulnerable person's house, and only 10 mosquitos... it's because you think division is always the right tool, but you have to cram many more people in to get a probability that makes sense.
So, in response, no, division is the wrong tool to apply here, as in the case of sand via walking through the beach, water molecules via getting wet in a pool, apples being picked from an orchard, or viruses infecting people in an environment. You can only divide if the total quantity consumed is known to be fixed; that must be true, since if you're dividing a/m versus a/n to distribute among m and n people, then multiplying by m and n respectively gets the same number back. So dividing to get the quantity/risk/whatever presumes that the totality of people in the environment consumes the same amount of viruses. Which is kind of weird, if you're not positing that they are consuming a fixed quantity somehow (such as, if they are consuming the vast majority of viruses). -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
...your theory seems to assume that the vast majority of viruses in an environment find themselves inside human bodies in 7 days. I question that assumption.The reason herd immunity works is because it distributes a significant portion of the viral load — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
But Roger, when I call these scenarios 0%, 2%, 50%, 80%, and 95%, what exactly did you think those percentages were a proportion of?Your theory is just the opposite. Your theory is based on creating an insufficient proportion! — Roger Gregoire
Nope. And I've corrected you on this very recently, so it's your fault you got this wrong, not mine. The healthy immune people I've expressed no opinion about; it is the healthy uninfected that are the problem. Uninfected per this model is what I initially described as state A; those are the ones you are recommending get infected so that they will become immune. Healthy immune people are state C1.You falsely think that if you move all healthy immune people AWAY from vulnerable, that somehow this gives more protection to the vulnerable. — Roger Gregoire
You speak with an urgency, but without a foundation in reality, your urgency should be ignored.To create herd immunity, you need to move healthy people into a vulnerable population, not away from it! — Roger Gregoire
The graph I showed you suggests otherwise. What are you looking at when you say it's not working exactly?If social distancing of our healthy population is such a good thing, then why is it not working? — Roger Gregoire
You're just doomsaying now. You speak with an urgency, but your urgency is unjustified because your model is in question. It's critically important we get this correct, because reality doesn't care what your opinion is.Next year, if we continue this foolishness — Roger Gregoire
Assuming you're talking about the US ("our country"; only us Mercan's naively expect everyone on the net to be in their country), we certainly haven't been doing the thing in the first place. Certain people in certain areas have, such as us in Massachusetts about the time that the graph I just showed you in the last post demonstrated that the practice worked. But social distancing doesn't work if there's still a significant portion of the population not doing it.Isn't that the definition of insanity? ...keep doing the same thing and expect a different result? — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
That sounds impressive, but I'm afraid I'm not that gullible. "Virtually all medical experts, scientists, and health agencies" is quite a weasel worded reference. I cited the wikipedia article though, which gives an explanation that is pretty much the same as mine. Encyclopedic references are good first starts to explain what the current consensus is, especially popular ones about popular subjects.It's not just me saying this, but virtually all medical experts, scientists, and health agencies (e.g. CDC, etc) also say this. Why you believe otherwise, is baffling. — Roger Gregoire
But the CDC, while not a citation, is a specific entity. So let's check what the CDC has to say.
From: https://www.cdc.gov/vaccines/terms/glossary.html
Ah, don't you hate it when they do that? Alright, let's do that.Herd immunity: See Community immunity. — CDC Glossary
So... according to the CDC, herd immunity is simply about making the spread of an infectious disease from person to person unlikely due to a sufficient proportion of a population being immune. That sounds like what I'm saying. They also say why the vulnerable are protected, but per their story, it is because "the disease has little opportunity to spread within the community." There's no mention of immune people around you fighting germs. Just diseases that can't spread because there's no opportunity to.Community immunity: A situation in which a sufficient proportion of a population is immune to an infectious disease (through vaccination and/or prior illness) to make its spread from person to person unlikely. Even individuals not vaccinated (such as newborns and those with chronic illnesses) are offered some protection because the disease has little opportunity to spread within the community. Also known as herd immunity. — CDC Glossary
Immune people do not get infected (per this model). Uninfected people do. Or as the CDC phrases it: "immune ... through vaccination and/or prior illness".To the contrary. Remember: nothing happens to healthy immune people when they get infected — Roger Gregoire
TBH I'm not sure I can agree to disagree here. That makes it sound like we're discussing which flavor of ice cream is the best; as if this is just an opinion versus opinion thing.InPitzotl, I think we are at a stand-still. Neither of us are budging from our positions, so I think it is time to say "we agree to disagree". — Roger Gregoire
You make it sound like observing the effects of social distancing has never been done before. Not only have we been doing this since the 19th century, but here's the data I myself crunched from the start of the pandemic:But one last request before we depart. How about we make a deal? — Roger Gregoire
https://ibb.co/Gvqm7yk
...but it's great to hear that you're at least doing a fuzzy test based on reality, instead of just hairbraining up a scheme, and arguing that your model is correct because you personally cannot fathom another one that would work. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Says the guy who can't compute a probability.Not only does this contradict basic math and logic — Roger Gregoire
This is a contradiction. Might I remind you, you are against healthy people social distancing because you want them to get infected. That implies you don't think they'll get infected if they do. Why not?Without healthy people mixing in with vulnerable people there can be no protective effect whatsoever. — Roger Gregoire
You're confused. The program is based on my model. My prediction, given before I wrote the program, is that there would be such an effect in the model. Writing the program is just implementing the model. Running the program confirms the prediction. To wit, if my prediction were wrong, then the running program should show no protective effect. But it did.If so, then it is based on your view; your opinion; your interpretation of how herd immunity works. — Roger Gregoire
But you advanced the argument from incredulity that your opinion is justified because if your opinion were false, then herd immunity would be impossible. My program shows this argument is wrong.It is an expression of your opinion, ...which, in my opinion, doesn't accurately match how herd immunity or how the protective effect truly works. — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Depends on what you mean by necessary. The healthy people are necessary for herd immunity, but that's just a qualification of a term. They are not necessary to have a protective effect... if you remove the healthy people, your vulnerable people are just too distant from each other. That's just "social distancing". But there's no mechanical difference between the two, just a nominal difference.But yet, according to your program, and your belief, healthy people are not really "necessary". They just need to "stay out of the way and not get infected", right? — Roger Gregoire
Also, you're failing to grasp the significance of what "according to [my] program" actually means. Programs aren't agents. My program isn't opining anything; it's implementing something.
The protective effect is holistic; it's similar to a phase shift. To understand what it is exactly as it applies to this model, you just need to understand what exactly happens in the model. Consider the case where the infection radius is set to 5, with one person infected. Then in one step, a person currently infected will lead to an infection of anyone within 5 units. For all such persons, in two steps, a person not yet infected will get infected if they are within 5 units of any of those. This infection will spread to any area of the map where there exists a chain of people P1, P2, ..., Pn, such that every two consecutive people in this chain is within 5 units of each other, P1 is within 5 units of the initially infected person, and Pn within 5 units of that location. Whereas I called this 5 unit area the "infection range", we can describe all areas of the map that this person can eventually contaminate as the "extended infection range". Initially, the extended infection range of sick people extends to the entire map. Once you increase the number of people who are immune, you decrease the density of people who can get sick, and at some point the union of the extended infection range of all sick people becomes less than the entire map. At that point, there are areas of the map where people who are not infected may inhabit that will never lead to an infection. The survivors are simply outside of the extended range of the initial sick people.Where exactly is the the protective effect if everyone always gets infected? — Book273
There are other ways of describing this protective effect, but ultimately, this is just describing why not all vulnerable people die in the scenarios shown in the video at the 80% and 95% level. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
I don't know why this is so confusing to you. By not getting sick.Okay, so let me try asking a different way. How does healthy people factor into protecting vulnerable people in your model? — Roger Gregoire
They don't get sick.So how do these people factor in achieving herd immunity in your program/model? — Roger Gregoire
Not really, because the question makes no sense. Equations in math denote two quantities compared to an operator, but the model is an evolving thing with multiple states; it evolves those states until there are no more infections. Healthy people are accounted for in this model by code; not "a" math equation. I could rephrase the model in mathematical terms, but I'm not sure how much it'd help you.Can you show the math equation (similar to what I did) to see to how you account for these healthy people? — Roger Gregoire
The relevant code to understand is here (reformatted to cut vertical space and remove some extraneous details):
Revealenum State { Uninfected, Infected, Immune, Dead }; struct Person { bool vulnerable; State state; unsigned x, y; vector<Person*> neighbors; }; void evolve() { set<Person*> died; set<Person*> immunized; set<Person*> infected; for (auto& p : people) { if (p.state == Infected) { if (p.vulnerable) { died.insert(&p); } else { immunized.insert(&p); } for (auto &neighbor : p.neighbors) if (neighbor->state==Uninfected) { infected.insert(neighbor); } } } for (auto &p : died) p->state = Dead; for (auto &p : immunized) p->state = Immune; for (auto &p : infected) p->state = Infected; }
It is a fact that there's a protective effect at 80%/95% in the scenarios run. The only "equation" you need is Deaths[80%]<Deaths[0%]; and it helps that Deaths[0%]=Deaths[2%]=Deaths[50%]. I understand why there is such an effect. The only problem left is for you to understand why. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Oh, is that where you're getting this from? Yes, I said that.You did say this, ...right? --- "the only role healthy people play in herd immunity is by not getting infected" -- InPitzotl — Roger Gregoire
You're confused. Reread that statement. This is a description of what herd immunity is, not a strategy for attaining it. If you watch the videos, you'll see uninfected people marked by a U, and there are "waves" of infections, marked by S, that flow over them, because they are within 5 units of each other. That's true for the 0%, 2%, and 50% scenarios, and that wave is sufficient to cover all of the vulnerable people, effectively killing them. But, once you reach 80%, there are 4 lucky people that are not within 5 units of someone who could get sick (i.e., S). There are two kinds of people in this model that can not get sick: (1) a dead vulnerable guy, (2) a healthy immune guy. A healthy person that can get sick just spreads the disease. A healthy person that cannot get sick, just can't spread the disease. So even if he's within 5 squares of you, he's not going to give you an infection. It's not that he's cleaning it up (there's no cleanups in this model), it's just that he's not getting sick.So then how do "healthy people not getting infected" create herd immunity in your program?
The difference between the 50% scenario and the 80% that saves those 4 lives is that healthy people around them did not get sick. The difference between the 50% and the 95% scenario that saved those 12 lives is that nobody around those 12 people got sick. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Funny, I don't recall coding that. What line of code are you looking at?INPITZOTL'S PROGRAM: If we keep healthy people from getting infected then we will reach herd immunity and protect and save the vulnerable people. — Roger Gregoire
I suspect you haven't a clue what you're talking about. The program's still there on pastebin. I could see it when using a text-only web browser from April, 2008.I suspect you have an error(s) and/or false assumptions in your program — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
...irrelevant. My model employs an infection model that infects more people than you're describing, and still demonstrates a protective effect. The very thing you are arguing is that if it weren't for your described mechanism, herd immunity would be logically impossible.any virus that infects an immune person — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Not in any way that helps your assertion that it's logically impossible. In the model implemented by the program, everyone in an infected environment always gets infected. And immune people never clean the environment. And still, there's a protective effect.I suspect it more likely that your program is not using the true volumetric ("density") calculations, or contains some false assumptions. — Roger Gregoire
And by the way, you're employing circular reasoning. You're claiming that IF your premises were not true, THEN herd immunity is impossible. But you're questioning the program's validity BECAUSE it doesn't use your premises. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
The computer program I wrote (and linked to earlier) proves this wrong.Again, if healthy immune people didn't remove more of the virus than they contribute, then herd immunity would be logically and theoretically impossible. — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
This is muddled up and inconsistent. You calculated what you called my theory, which is the same principle by your equations as isolation; you computed that more people die when healthy people are put in mosquito nets than if we had the healthy people in the room. You may as well take those people out, but then you're saying that more people die by becoming infected when you isolate than when you don't. But again, you're saying that we need to stop isolating healthy people so that they become infected. Surely if isolating vulnerable people gets them bit more, isolating healthy people would get them bit more. Might I suggest that you're making some assumptions that are critical to your model, and just need to figure out what they are?1. If we add healthy people, then less vulnerable people die.
2. If we remove (quarantine) vulnerable people, then less vulnerable people die.
3. If we do both, then even less vulnerable people die.
I vote we do BOTH to maximize the saving of vulnerable people. — Roger Gregoire
As for probability, you need to fix that if you want to use it. If you don't know how to do probability right, don't try it. But don't worry too much about that; I'll help you muddle through that. Just start by developing your model assumptions. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
You still get the same absurdities; P0>1 (i.e., >100%) when Nv>Np, and >1 is outside the range of a probability.P0=Nv/Np, where P0 is initial probability, Nv is number of viruses, Np number of people. — Roger Gregoire
Look, let me help. Let's go back to the 10 mosquitos, 100 people in a room. But let's actually add spoken assumptions... each mosquito bites exactly one person at random. Mosquito 1 could bite any of those 100 people. Mosquito 2 could also bite any of those 100 people, but this includes the possibility that Mosquito 2 bit the same person Mosquito 1 bit. So there are 100^10 different ways those 10 mosquitos could bite those 100 people. If Frank is vulnerable, for Frank not to get bit, none of the 10 mosquitos can bite him. There are 99 ways the first mosquito can not bite Frank; 99 ways the second can not bite him, and so on. So there are 99^10 different ways the mosquitos could bite people such that they don't bite Frank. Thus, the probability Frank is not bit is (99^10)/(100^10). So there's about a 90.44% chance Frank is not bit; which means there's a 9.56% chance he gets bit. Now if you flip this, with 100 mosquitos and 10 people, you can do something similar. There's a (9^100)/(10^100) chance any one person doesn't get bit here. So the probability Frank doesn't get bit is about 0.0027%; the probability that he gets bit is 99.997%. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
I didn't say it did. But you mentioned this effect. Incidentally, E winds up just being Nv/Nh.E is just the protective effect, it doesn't tell you how many (or what %) of people are saved, or have died. — Roger Gregoire
But P0 is still Nv/Np. So if you have 5000 viruses in a room and 50 vulnerable people, P0=100=10000%.P0=Nv/Np, where P0 is initial probability, Nv is number of viruses, Np number of people. — Roger Gregoire
Look, let me help. Let's go back to the 10 mosquitos, 100 people in a room. But let's actually add spoken assumptions... each mosquito bites exactly one person at random. Mosquito 1 could bite any of those 100 people. Mosquito 2 could also bite any of those 100 people, but this includes the possibility that Mosquito 2 bit the same person Mosquito 1 bit. So there are 100^10 different ways those 10 mosquitos could bite those 100 people. If Frank is vulnerable, for Frank not to get bit, none of the 10 mosquitos can bit him. There are 99 ways the first mosquito can not bite Frank; 99 ways the second cannot, and so on. So there are 99^10 different ways mosquitos could bite people such that they don't bite Frank. Thus, the probability Frank is not bit is (99^10)/(100^10). So there's about a 90.44% chance Frank is not bit; which means there's a 9.56% chance he gets bit. Now if you flip this, with 100 mosquitos and 10 people, you can do something similar. There's a (9^100)/(10^100) chance any one person doesn't get bit here. So the probability Frank doesn't get bit is about 0.0027%; the probability that he gets bit is 99.997%. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
This conflicts with putting healthy people in the same room as vulnerable people. There's a room with 5 healthy people and 5 vulnerable people in it. Are you going to add 10 healthy people or remove 5 vulnerable people?Huh? Vulnerable people need to social distance much more than they currently are. We need to minimize the contamination in the environment. — Roger Gregoire
In fact, you were calculating putting the 5 healthy people in mosquito nets, calling that my idea, and calculating that as worse. That calculation is identical to removing those 5 healthy people from the room. There's an asymmetry here... you want to infect healthy people? Put them together, so they can get infected; implication being if you leave them apart, they can't get infected. Want to protect vulnerable people? Well, by all means, don't keep them apart... they could get infected. Why are the rules different for healthy people than they are for vulnerable people? -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
So, P0=Nv/Np, where P0 is initial probability, Nv is number of viruses, Np number of people.The amount of the virus within a given environment, divided by the total number of people within that environment dictate the initial odds of a person getting infected. — Roger Gregoire
So, E=P0*(Nh/Np), where E is the protective effect, and Nh the number of healthy people.And then, the ratio of healthy people to total people within that same environment, multiplied by the initial odds, yields the protective effect to the vulnerable people.
Probability still doesn't work that way I'm afraid. If there are 1000 viruses in the room, and 2 people, 1 of which is healthy, you have:This is the correct equation for determining the protective effects of herd immunity, and not the "distance" from healthy people to vulnerable people, nor the "distance" that the virus has to travel.
P0=500=50000%
E=50000%*(1/2)=25000%
And probabilities cannot be higher than 100%. Could this absurdity be why you curiously have less mosquitos than people in your scenario?
Let's change your numbers, and preserve your calculations, to show you how absurd this is:
Roger's math: "Imagine 10 people are inside a room with 100 mosquitos flying about. Further imagine that 5 of these people are healthy (a mosquito bite does not bother them) and 5 people are vulnerable, whereas they would have a severe reaction and die if bitten by a mosquito. So the odds of a vulnerable person dying from a mosquito bite is 1000% (100 mosquitos / 10 total people) = 1000%, and (5 vulnerable people / 10 total people) = 50%, and so 1000% * 50% = 500%, and so 500% * 5 vulnerable people = 25 dead people."
...and more vulnerable people died than you initially had.
...so, the 1000% chance of getting bit is real?No. The initial odds of infection are n viruses/n people in a given environment. — Roger Gregoire
This is the same thing you just said in the other post, except you say virus instead of mosquito. Okay, so let's get more absurd.Imagine 100 people are inside a room with 10 airborne virus. — Roger Gregoire
Roger's math: Imagine 10 people in the room, 5 healthy, with 1000 airborne viruses. Now we get the odds of a vulnerable person dying as (1000 virus / 10 people)*(5 vulnerable/10 people) = 10000%*50% = 5000%. With 5 vulnerable people, we get 5000%*5=250 dead.
...so now, herd immunity killed 25 times more people than there are in the room.
Still not my theory.INPITZOTL'S THEORY: If we keep healthy people from getting infected then we will reach herd immunity and protect and save the vulnerable people. — Roger Gregoire
...and you still have the mosquito net problem. Because you cannot fathom putting those 50 nets on the 50 vulnerable people, saving everyone, you import 100 people into the room.let's put the 50 healthy people in mosquito proof [mosquito nets], to prevent them from getting bit. — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
No, Roger, you know what P2 you are referring to, which is why I asked. You have three P2's on this page (one edited in after I replied):Seriously? ...you are playing games, ...you know very well what P2 I am referring too. — Roger Gregoire
Roger's logic: ...
P2. Many vaccinated people also don't get sick. — Roger GregoireInPitzotl's response: ...
P2. But the bacteria grows. — Roger GregoireP1. Healthy immune people not getting infected. ...
P2. (...missing) — Roger Gregoire
I'm not sure what you're even trying to do here. P1 is a sentence fragment, but it sounds like a model assumption. C1 looks like a model observation in a specific scenario; e.g., what this program produced with the inputs in the 90% scenario. Are you trying to get me to prove that the computer that ran this didn't go haywire?P1. Healthy immune people not getting infected.
P2. (...missing)
C1. Therefore, we get herd immunity; protection for our vulnerable people — Roger Gregoire
Defined flawed. Do you mean by flawed anything different than I mean here?:The starting condition (inputs) of your model is flawed, which results in unreliable results. — Roger Gregoire
The model assumptions are admittedly unrealistic. But there's one thing irrefutable about it; whatever the model did, that is what it did. The 80% scenario in this model managed to save 4 vulnerable people. The 95% scenario managed to save 12 vulnerable people. So apparently, one can indeed get a protective effect this way. (See below... just a couple of paragraphs).For discussion purposes only, I'll oversimplify. — InPitzotl
Are you sure you phrased your objection right? This isn't missing from the model. In the model, there is a contaminated environment; all locations that are within the specified radius (5 in all scenarios shown) of an infected person are contaminated. And in the model, people get infected by being in that contaminated environment. In this model, they are always infected, unconditionally, if they are in this environment.First error. People don't get infected from other people. They get infected by being in(<-A) a contaminated environment.(<-B) — Roger Gregoire
Curious... it's just a pastebin.I'm not able to open and see your actual coding. What equation are you using to yield herd immunity (the protection effect to the vulnerable)? — Roger Gregoire
There's no equation to yield herd immunity. The model runs until there are no infected people left; i.e., eradication. In all of the scenarios in the video, there are 20 vulnerable people, and initially 5 infected. The board is very dense; population is 500 on an 80x25 board, so 25% of the area is filled with people. With 0% initially immune (in effect vaccinated), all 20 die. Same with 2% and 50%. So with these scenarios all 20 deaths at eradication is the baseline. The protective effect can be measured by how many vulnerable people are left alive at eradication. At 80% initial vaccination, that's 4 people. At 95%, it's 12. Note that vaccination skips vulnerable people, so the protective effect is entirely due to the vulnerable just not getting sick.
That doesn't make sense. Let's take scenario A: There are n viruses in an environment, one person in the environment, and there's a 90% chance this person gets infected. Now consider scenario B, we put two people in that environment. Are you saying there's now a 45% chance each get infected? If so, let's take scenario C: There are 2*n viruses in the environment, and one person in the environment. Probability cannot exceed 1; maybe we'll say there's 99% chance this person gets infected. But now, finally, consider scenario D: There are 2*n viruses in the environment, and two people in the environment. So, would there be a 47.5% chance each gets infected?The amount of the virus within a given environment, divided by the total number of people within that environment dictate the initial odds of a person getting infected. — Roger Gregoire
But now you have A versus D; in both cases, there's the same number of viruses per person (n/1 vs 2*n/2), but the odds per person getting sick change (90% to 47.5%). Are you really going by that?
Hmmm... I have to assume the parenthetical is a typo:Imagine 100 people are inside a room with 10 mosquitos flying about. Further imagine that 50 of these people are healthy (a mosquito bite does not bother them) and 50 people are vulnerable, whereas they would have a severe reaction and possibly die if bitten by a mosquito. So the initial odds of a vulnerable person getting bit by a mosquito is 10% — Roger Gregoire
...probability doesn't work that way; 10 mosquitos, 100 people no more means 10% chance of getting bit than 200 mosquitos, 100 people means 200% chance of getting bit.(10010 mosquitos,10100 people = 10% chance ofanyone[each?] getting bit). — Roger Gregoire
So let's start with the biggest problem... that's not my theory. More in a bit.INPITZOTL'S THEORY: If we keep healthy people from getting infected then we will reach herd immunity and protect and save the vulnerable people. — Roger Gregoire
The next problem is that the objection to the not-my-theory is broken. Probability doesn't work as you describe. The next problem is that your scenario is non-analogous. Mosquitos hunt; viruses do not. There are likely a lot more viruses than there are people. And mosquitos can actually bite more than once; a virus cannot infect more than one person.Okay, let's tryInPitzotl'stheory -- let's put the 50 healthy people in mosquito proof gunny sacks, to prevent them from getting bit. Okay so now what are the odds of the vulnerable people getting bit? ...it has doubled!, ...it is now 20%! (10 mosquitos, and 50 exposed people, = 20% chance of getting bit). — Roger Gregoire
Now for what my theory really is... it's that the best way to protect vulnerable people, is to just do exactly that. Protect the vulnerable people. So let's take inventory. We have 100 people. 50 are healthy. 50 are vulnerable. We have 50 mosquito nets. People in mosquito nets don't get bit. But Roger is too distracted by his own conception of herd immunity, which demands nobody is covered; that he forgets that the primary goal is to protect lives. Were Roger not busy distracting himself, might it occur to him to put the mosquito nets on the vulnerable people?
BUSTED: Roger, by confusing the goal "herd immunity" with the goal "saving vulnerable lives", killed 10% more vulnerable people than he could have saved.
Incidentally, I think you're missing the part where you mention that maybe 10 of these healthy people, if bit, have a fair likelihood of developing this odd condition where the mosquitos reproduce in their body and come out of their mouth and nose in scores. Those people I certainly don't want getting bit; you know, for the sake of the vulnerable people. In fact, I'd much rather not have such ticking time bombs be in the room in the first place, if possible. You think 10 mosquitos in a room is bad? Try 60 to 100. OTOH, if there's a magic cookie that you can give to these 10 healthy people that prevents them from having this condition, sign me up!
You speak as if social distancing prevents healthy people from getting infected. Do you believe that's a real thing? If so, why aren't you considering social distancing for the vulnerable? This is the mosquito net problem all over again.We need to immediately "un-socially distance" healthy people! If we let healthy people (including those who were previously infected and those who were recently vaccinated) expose themselves and get infected then we will reach herd immunity and protect and save the vulnerable people. — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Are you talking about this P2?:So then, what is P2? — Roger Gregoire
That's your premise, not part of my model. Sick per your definition is irrelevant.P2. Many vaccinated people also don't get sick. — Roger Gregoire
ETA: So you can follow:
In reference to your edits, don't go by what you said my premises are, go by what I said. Here I've correlated the code directly to the first post where I discussed the model. Refer to the running simulation for a demonstration of the protective effect; note that there's none in these runs in all scenarios up to 50% vaccination; at 80% you see some effect; at 95% more.For discussion purposes only, I'll oversimplify. Let's say everyone is either healthy, or vulnerable {line 18}. I'll grant 1 and 2 literally; vulnerable people who get sick die, and healthy people who get sick become immune {line 284}. Unstated, for simplicity, let's presume that everyone who is vaccinated becomes immune {line 174, part of setup}.
But here's how the mechanics work. Everyone starts out uninfected, call that state (A) {line 26}. They can become infected, state (B), if exposed to a carrier {line 298}. A carrier is essentially another person in state (B). Then if the person is healthy, they go to state (C1), immune {line 293}. If they are vulnerable, they go to state (C2), dead {line 287}. So in these terms we want to minimize the number of people in state (C2), death by covid. — InPitzotl -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
The code isn't coding for a protective effect. It's coding for the premises. Line 10 has the states discussed earlier. Line 17 implements a person with those states at some location, with a vulnerable flag. Line 145 implements population of the world; it scatters people randomly using a Mersenne twister from the language's standard library. At line 209 it connects people to neighbors that fall within the infection range. Line 236 implements the display of each stage. Each step is implemented by the method at line 268. That method kills off any vulnerable infected people, makes immune any healthy infected person, and infects everyone in the infection range.InPitzotl, your coding "begs-the-question", it pre-assumes the conclusion. — Roger Gregoire
Running the program proves that the conclusion bears out. In the video, the scenario announcement corresponds to the inputs.
298 is where neighbors are infected. Note that they are only infected if they are in Uninfected state. I.e., the healthy immune people (vulnerable=false, state=Immune) are literally "standing around not getting infected". The running program demonstrates the protective effect.You need to show your logic (and don't automatically assume it) that "healthy immune people standing around not getting infected" logically results in "herd immunity; protective effect to the vulnerable". — Roger Gregoire
You're trying to wring blood from a stone.I'll wait. — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Well, yeah, C2 does not follow. My program in effect proves that.No problem with my logic. — Roger Gregoire
Sickness might I remind you using your definition, which is a distinction I'm not making. But here we are, talking about this irrelevancy. This is a distraction.f my premises are true, then sickness is irrelevant. — Roger Gregoire
Nope.C2 follows from C1 — Roger Gregoire
No, C1 is the negation of this claim, call it X: "everyone must get sick to gain herd immunity", which denies that herd immunity can be accomplished through any means except for getting everyone sick. C2 is the negation of this claim, call it Y: "getting everyone sick will lead to herd immunity", which allows for other methods of attaining herd immunity. Y=true, X=false is logically consistent under the condition that getting everyone sick attains herd immunity but there's another way to attain it. So C2 cannot follow from C1.C1 says "sickness is irrelevant". — Roger Gregoire
My coding demonstrates that the thing I described works. That refutes this claim:Your coding sidesteps the issue (and "begs-the-question"). The question is how/why herd immunity works in the first place. — Roger Gregoire
...because this is, in fact, possible; given the program works, that is proof by demonstration. And, it proves by demonstration that this is false:If this were not true, then herd immunity would be impossible. — Roger Gregoire
...since this model does indeed demonstrate a protective effect without that condition you say is the only way to do so.Logically, the only way healthy immune people can provide a protective effect (herd immunity), is if they stop/adsorb/kill the virus around them (in their local environment). — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?If a sore gets infected by bacteria, I don't get sick either. But the bacteria grows. Your distinction is a red herring. — InPitzotl
Underlined is an appeal to motive fallacy.Your response attempts to change the direction of the discussion (by creating a stinky diversionary distraction; aka "red herring") away from Rogers words, so as to prevent us from looking at the actual logic presented by Roger. — Roger Gregoire
You are making a distinction between "sick" and "infected"; per that distinction, "sick" means symptomatic, and infections don't require symptoms. But according to your premises P1-P3, herd immunity is related to infections, not sickness. Apparently, you're trying to make the point that this distinction is irrelevant. And that's the same thing I said; that this distinction is irrelevant. So what is the problem?
Incidentally, C1 follows from your premises, but C2 does not. Yet C2 has the word "therefore" in it. So how exactly did you reach conclusion C2?
If you would like, we could also break down, analyze, and expose the logical error (irrationality) of your statement --> 2. "the only role healthy people play in herd immunity is by not getting infected" -- InPitzotl — Roger Gregoire
No logical error there. What I describe actually works. To demonstrate, I coded it... the code is here:
https://pastebin.com/JgC6UkND
...should be run in a terminal with any generic term that does basic escape codes (cygwin, linux, w/e).
I made a video showing runs of this program under multiple scenarios, here:
https://streamable.com/veas6l
Note that with 80% and 95% immunity on this model (80x25 board, population 500, 5 initial infections, 20 vulnerable people), eradication is attained without killing all of the vulnerable people. Nothing in the code codes for healthy people cleaning up viruses; it simply codes for spreading to nearby neighbors who were never infected.
This is mainstream stuff. Compare to that wikipedia article on herd immunity:
https://en.wikipedia.org/wiki/Herd_immunity
...and this:
https://www.historyofvaccines.org/content/herd-immunity-0 -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Not really. Rationality doesn't mean that Roger doesn't understand. You're committing logical fallacies.This is funny that you say this, because this is exactly how I see your responses. Isn't it interesting how we each see the other as the irrational one? — Roger Gregoire
A logical flaw is something that does not logically follow, not something Roger disagrees with, or something Roger doesn't understand.This is irrational (logically flawed), — Roger Gregoire
If a sore gets infected by bacteria, I don't get sick either. But the bacteria grows. Your distinction is a red herring.for we gain herd immunity through infection and/or vaccination, and it is well known there are very many people who are asymptomatic (do not get sick) when infected, and very many people who also do not get sick when vaccinated. — Roger Gregoire
That the reasoning has consequences doesn't mean it has a logical flaw. A logical flaw is when something does not logically follow.This is irrational (logically flawed), for if this were true, then herd immunity would be easy to achieve. — Roger Gregoire
So let me understand your logic. Roger says that herd immunity is a function of healthy people getting immune and cleaning up the environment. I, and wikipedia, say that herd immunity is a function of building greater "distance" between infected people and people who can get infected by converting the population into mostly immune people. So here, Roger is going to prove his theory of herd immunity by... changing my description of herd immunity, then attacking it on the basis that his straw version would be easy. Therefore, Roger's version is correct. Is this how your logic works?Imagine having a room full of people (both vulnerable and healthy) and we put all the healthy people in space suits (to guarantee that none of them get infected), then according to your logic, we could achieve herd immunity in the room.
Or better yet, we could create herd immunity on a larger scale by shipping all healthy people in Oklahoma to Arizona (which guarantees no infection of healthy people in Oklahoma), and voila, the 100% vulnerable people remaining in Oklahoma are now instantly and magically immune, and protected from the virus!
If so, this is known as a straw man argument, and the use of it to conclude your version is correct is a red herring. Those are logical fallacies.
Now, let's go over your examples. In your first example, your entire population is in a room, and you're "protecting" your healthy people with space suits. I'll grant your space suits are protective, but there are some major problems here. First off, any sick vulnerable person in your room is producing viruses. Second, they will be sick for some time, even if they eventually succumb; say, 10 days. Third, the virus is viable for 7 days after that. So from the time they get sick, they spread the virus around in the room, and those viruses are viable for 7 days. That's 10 days of wandering, plus 7 days of being viable and being tossed about by daily activities. That infection range easily covers the room. So your healthy people have to eat and drink, without taking off their space suits, for at least those 17 days; but it gets worse. Each time an uninfected vulnerable person gets sick, the clock gets reset. So it's actually longer than 17 days. Eventually, though, everyone who will get sick will, and everyone who dies will, and the viruses will wind up becoming unviable. At that time, you have accomplished eradication, but that's still not herd immunity, because you didn't build distance between infected people and people who could get infected by means of making people immune; you did it with space suits (and starving, thirsty healthy people).
In your second example, healthy people in Arizona don't disappear, and Oklahoma has bordering states. But vulnerable people have to eat, so they're still in occasional contact with each other, since they've only got each other as food distributors. But so long as they protect themselves with, say, masks, quarantines, and so on, they can increase their safety. If they could manage this to such an extent that viruses from sick people don't infect the next guy within 7 days of their life span, they could even attain eradication. But again, that wouldn't be herd immunity. And those people in Arizona still exist, making Arizona denser.
Begging the question. I've explained several times why that's unrealistic. But now you're trying to prove it with a straw man.In actuality, herd immunity works because healthy immune people remove (stop/kill) more of the virus from the environment than they contribute (shed/spread) into the environment, — Roger Gregoire
It's not that they aren't getting infected; it's that the distance between infected people and the next person that can be infected exceeds the infection range. Read the wikipedia article. Look at the picture at the very least....and NOT because they are just standing there "not getting infected" within a crowd (herd) of people. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
This is an argument from authority fallacy. You don't know what you're talking about; Dr. Fauci looks like a pretty bright fellow to me, so I highly doubt he'd make such a silly mistake as you did. Here's a quote from the wiki article:Virtually all reputable medical scientists on this planet (even Dr. Fauci) agree that #1 is true. — Roger Gregoire
Here's the difference between what you said, and what I said:Immune individuals are unlikely to contribute to(a) disease transmission, disrupting chains of infection, which stops or slows the spread of disease. The greater the proportion of immune individuals in a community, the smaller the probability that non-immune individuals will come into contact with an infectious individual.(b) — Wikipedia article
Do healthy immune people SAVE vulnerable people (via herd immunity)? — Roger Gregoire
What I said matches (a), and matches (b). What you said does not match (a) and does not match (b).the only role healthy people play is not getting infected. — InPitzotl
Agree with what? The thing I said was misguided wasn't even a statement; it was a question. This question:Yes, what I said is true. And again, virtually all reputable medical scientists on this planet agree with me. — Roger Gregoire
You're effectively saying: "virtually all reputable medical scientists agree that 'if herd immunity is our ONLY solution to saving vulnerable people, then what are we waiting for?'", which is incoherent.If herd immunity is our ONLY solution to saving vulnerable people, then what are we waiting for? — Roger Gregoire
Nope, they're correct. Recall that I said that getting everyone sick will lead to herd immunity; that's also correct. But it also is a worst case scenario for saving lives. Your misguided question confuses achieving herd immunity with saving lives. The problem is, as I've repeated, herd immunity will only protect people who are alive at the time it's attained; it does not protect the people you slaughtered on the way to attain it.Is the Mayo Clinic also "misguided"? — Roger Gregoire
Sure, you can call it anything you like, but names don't change facts. But it would appear the only reason you call it "hiding" is to try to paint it sour as a poor substitute for giving a rational argument against it. And intentionally equating social distancing to inaction is just being blatantly anti-logic.Yes, "social distancing" is nothing more than "hiding" from the virus, pure and simple. If you want to pretend that it isn't, ...then that is your choice, ...but I prefer to call it as it is. — Roger Gregoire
Roger, what are you doing here? If your aim is to convince someone you're correct, try logic instead of irrationality. If all you're doing is disagreeing to defend your opinion, you're not going to accomplish much here. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
You seem to be presuming that this is a matter of "playing the right side". It's not; it's about reality. This isn't about you versus the media or whatever other boogey man you dream up; this is about you versus how things actually work. If the media disagrees, the media's wrong. If you disagree, you're wrong. In the end, actual reality will unfold as a result of things we do, and that's the key to actually pulling off whatever strategy we implement.You seem to be playing both sides of the fence here. — Roger Gregoire
That's why I'm not quoting media... that, and I don't get this from media anyway. That's why I'm instead explaining to you how things actually work.
Neither. Your question in 1 is a leading question, and the underlying premise of the question is wrong. Your ideas of herd immunity are fictional. Herd immunity isn't driven by healthy people cleaning up the virus; the only role healthy people play is not getting infected.1. Do healthy immune people SAVE vulnerable people (via herd immunity)? ...or
2. Do healthy immune people KILL vulnerable people (via viral spread)? — Roger Gregoire
This is misguided. You said it yourself:If herd immunity is our ONLY solution to saving vulnerable people, then what are we waiting for? — Roger Gregoire
The issue is that promoting immunity by infection can only possibly increase the viruses in the environment. If our stated goal is to maximize the number of vulnerable people that survive, then the only thing we're after is maximizing the number of vulnerable people that survive. If herd immunity through vaccination kills less people than herd immunity through infection, we should prefer that strategy, because that's our goal. Right?We can achieve herd immunity through infection, vaccination, and/or the combination of both. — Roger Gregoire
More dysphemisms. It's not fear, Roger, it's strategy. We care about humans, but this would work the same way in a simulation of weebles, where we just have a score.Is it the fear that some of these vulnerable people might die? — Roger Gregoire
This is like the old joke: "Q: How many legs does a dog have, if you call the tail a leg? A: Four. Calling the tail a leg doesn't make it a tail." Here, you have insisted on calling social distancing "hiding" and "inaction". But it's clearly not the same thing. So your insistence should be ignored. At best, you're rationalizing equivocation, but you can't very well expect me to conform to a demand by you of irrationality just by using your preferred label. Sir, you're on a philosophy forum. That garbage strategy isn't going to fly.Sorry, and no offense, but this just seems to be an excuse for "inaction", or an excuse to just keep hiding (social distancing), and allowing the virus to continue killing our vulnerable. — Roger Gregoire
Inaction has a par of exposure to viruses. Social distancing compared to that par lowers that exposure, and therefore, lowers the number of infected people, and therefore, lowers the number of viruses in the environment. Equivocation doesn't change this fact. If you're serious about the brainwashing of the media and other conspiracy theories, then the way to avoid false conclusions is to avoid fallacies, and the way to that is to focus on what you can establish is true. If you're just going to spin dysphemisms in order to avoid facing facts, then you should rightfully be ignored or called out.
...as I said before, let's get the facts right on this model first.And furthermore, — Roger Gregoire
Quite literally, a fan and an open window would help a vulnerable person far more than violating the fire code in his residence with immune people. Herd immunity doesn't work the way you describe... your concept of it is fictional.This vaccine should empower all healthy immune people (including those previously infected and those recently vaccinated) to immediately rip their masks off and start socializing asap to develop herd immunity to protect the vulnerable, including the vulnerable who are too vulnerable to accept a vaccine. — Roger Gregoire
We can focus on that if you like. This is philosophy after all, so why not discuss epistemics? You believe your fictional account of herd immunity for some reason. That has value if and only if it has a proper justification. So what justification do you have for your theory of herd immunity? -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Vulnerable people die when infected, by our model. They get infected when exposed to viruses in the environment. Infected people produce viruses. More viruses means more chances of getting vulnerable people infected.Vulnerable people don't die when healthy become immune. Vulnerable people only die if we don't protect them from the virus. — Roger Gregoire
No, vulnerable people are protected via herd immunity by not having any viruses around them.Vulnerable people are protected (via herd immunity) by being surrounded by healthy immune people.
No. A viral infection is when a virus infects you; that means it infects your cells, and that means it's reproducing. One virus makes many for each cell it infects. This being a respiratory virus, the first cells it infects are those on the air border. With every breath, a healthy person breathes out viruses. This is how viruses work. This is what infections are. What do you think infected even means in the context of viral infection?But if you are saying - a 'healthy' infected person contaminates (sheds) lots of virus… - then no, I disagree, because healthy infected people remove more of the virus than they shed. — Roger Gregoire
See above. Viruses die in 7 days per our model. The only way they can continue to exist after 7 days is to infect someone else, thereby producing more viruses....which is the same thing as I said. Viruses die (are killed) within healthy people, and replicate and shed within vulnerable people. — Roger Gregoire
In our model, they do. We can quibble; if we do, I would point out that healthy people don't necessarily survive. But none of this matters regarding your wrongness, because we can define this out, given you're only talking about vague undefined concepts; healthy people by definition are those that survive covid, and vulnerable people by definition are those that die. Now the only weakness are exceptions like people getting sick, recovering, but not developing immunities, and so on, which we can ignore for this discussion, because even if we do you're still wrong based on how things actually work.Note: vulnerable people don't necessarily die when infected, but they certainly replicate and shed the virus big time. — Roger Gregoire
The vulnerable people who die as a consequence of viruses put into the environment due to your naively infecting healthy people. Per our model, only vulnerable people die anyway, and healthy people would survive anyway. You still get herd immunity, but that can't very well save a life you slaughtered on the way to it now, can it?...what casualties? ...healthy people don't die from herd immunity? ...and vulnerable people are protected? ...so who is dying, ...what causalties? — Roger Gregoire
Nonsense. It results in less people infected at once which allows hospitals to not be overflowed. It buys time, which can be used to vaccinate people. And if practiced correctly there's a chance the virus could just die out on its own, not that human behavior would in practice support that.Social distancing of the healthy population destroys any gains made by the social distancing of the vulnerable. — Roger Gregoire
We only practice social distancing with people who have a chance of being infected. In our model, everyone vaccinated is immune. Worry about this model first, until you understand the basics, then we can talk about something more realistic.Vaccinations are great, but if we social distance our vaccinated population then no gains will be made, as this only puts us right back in the mess we are in now. — Roger Gregoire
That effect is fictional. Viruses have to find their way from ground 0, the infected person, to another person they can infect, within 7 days (per our model). Viruses cannot infect immune people. That's the real driver of herd immunity. It's not that your immune people are cleaning the environment; immune systems don't work that way. They only fight infections within the host. It's just that they're not getting infected; a person who isn't infected just doesn't help the virus survive past those 7 days.If vaccinated people don't enter society to give a protective effect (i.e. remove more virus than it sheds) — Roger Gregoire
The virus, to survive more than a week, has to continually reset the clock, and that means all new viruses must infect people within 7 days. The more infections you have, the more viruses you have that have their clocks reset.
Have you even read the wikipedia page on herd immunity?
https://en.wikipedia.org/wiki/Herd_immunity -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
No, this path would result in the maximum number of casualties.It would be rough for awhile, but long term effects would be less damaging than the current path. — Book273
I think you've missed something I said, because I certainly don't agree this is a best case scenario; I was proposing it as the worst case scenario. In the model we were discussing, "healthy" people would never die from this virus, and they're basically the only survivors. (Also, the premises are questionable; they're just granted for discussion with Roger). -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Why? All of the healthy people become immune, per our model. All vulnerable people die, per our model. Dead people can't get infected because they're dead; living people can't get infected because they're immune. That's herd immunity.This is blatantly false. — Roger Gregoire
But you say it's blatantly false. How? Blatantly correct me.
But Roger; the environment surrounding an infected person is contaminated. So we should keep vulnerable people away from infected people. Right?It is not that we necessarily need to keep vulnerable people away from certain people, it is that we need to keep vulnerable people away from contaminated environments. — Roger Gregoire
Other than that, people either contribute (shed) viruses back into the environment or they remove (stop; kill) viruses from the environment. One or the other. — Roger Gregoire
I said exactly what my point was:And so what is your point??? — Roger Gregoire
Herd immunity is not, as you described, a matter of immune people cleaning the environment up. It's a matter of viruses dying before they infect the next guy. Your virus that has only 7 days to live can only possibly make it into the lungs of so many people in those 7 days. Out of those people, only the ones that can get infected count towards the reproduction rate. Once that rate drops to where the viruses emitted by one person infect on average less than one person (during the time that it's viable), then the rate of infections in the population drops, which puts you on a path to herd immunity.There's a real effect here, but it's minuscule. — InPitzotl
Herd immunity itself isn't bad, but herd immunity by means of a process that leaves you with avoidable casualties is.Are you trying to imply that we shouldn't try to stop this virus through herd immunity? — Roger Gregoire
Social distance and vaccinations is better. Both minimize infections....do you have a better way? -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
You didn't address the claim made... you just addressed this fuzzy thing you called strategic herd immunity. But the quoted claim was about exposing healthy people to the virus.FALSE. Strategic herd immunity REDUCES the total number of viruses, not "increases". — Roger Gregoire
Simple; it does. Remember this particular misplaced whine?Either you believe herd immunity gives a protective effect, or you don't. ...so which is it? — Roger Gregoire
...talk about missing the point. Getting everyone sick accomplishes herd immunity (granting no mutations, but we'll grant that). That has a protective effect. But getting to that state also has a cost; that of maximizing human death from the virus. So, either your goal is to accomplish herd immunity, or your goal is to minimize death. Which is it?Who said anything about infecting "EVERYONE"??? — Roger Gregoire
Most healthy people are asymptomatic. — Roger Gregoire
That's not a state in our model. There is (A) unexposed, (B) infected, and (C1) immune. But if you want something more realistic, then this is an irrelevant nitpick, because asymptomatic carriers still produce virus.FALSE. "Sickness" is a reflection of physical symptoms — Roger Gregoire
That's irrelevant to our discussion.On the other hand, those with weaker immune systems — Roger Gregoire
And that's precisely what's dishonest. Changing the definition of inaction to equate two clearly unequal things is dishonest.I don't call "hiding" from the virus as "taking action". — Roger Gregoire
You keep making that qualification. That implies that you might agree that keeping vulnerable people away from the infected is a good idea. So for follow up questions... 1. do you in fact agree with this? And 2. if so, why do you think it is a good idea?Hiding (of healthy people) — Roger Gregoire
The virus only grows in number if it infects people. Infecting more people increases its numbers. The virus also increases numbers by replicating, and that's a prerequisite to mutating. The more viruses you create, the higher risk of mutation. So you're recommending the exact opposite strategy to attain the goal you state.only allows the virus to continue to grow and mutate, ultimately killing many more people. — Roger Gregoire
Greetings, Roger Gregoire. I am InPitzotl on philosophy forums. I like Ghost in The Shell, I love pigs, I'm a software engineer by trade, and I make it a practice to ignore euphemisms and dysphemisms.We have been brainwashed into believing the mantra "social distancing saves lives", which is true for vulnerable people, but absolutely false for healthy people — Roger Gregoire
I've underlined two dysphemisms. Those aren't arguments. I'm only interested in what's actually described and how things actually work; not on whatever spin you want to put on it or what name you want to call it.
You don't seem to have a good sense of proportion here. Imagine smoke again... a bunch of particles in the air. I get a friend into the room with me. Every smoke particle that sticks to my friend's lungs is one less particle I can potentially breathe in. Imagine a dusty floor. A dog walks across it, and then I do. Every piece of dust that gets picked up by that dog's paw is a piece of dust that cannot get my shoe dirty. But do we clear smoke from a room by dragging friends in to breathe it? Do we clean floors by sending dogs through to walk on it? No, we don't... that would be insane. There's a real effect here, but it's minuscule.For every virus that is killed by a healthy immune person, means one less virus for a vulnerable person to be potentially exposed to. — Roger Gregoire
If you're going to make me a convert, you're going to have to do a lot better than come up with some bad sounding words to call me. You have a major believability problem just with the story, and that's actually the only thing that should matter. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
1. Minimize the number of sick people....so then what are you promoting? ...to just keep hiding and hope it goes away??? — Roger Gregoire
2. Maximize immunity through vaccination.
Then you're being dishonest. Inaction is doing nothing. Social distancing decreases the amount of infected people compared to inaction.I am only seeing excuses for 'inaction'. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
I did, to emphasize the worst case scenario, and to stress the fact that this would indeed accomplish herd immunity. I believe you're experiencing a cognitive bias; "immunity" sounds good, therefore you imagine that "more immune people" must be better. But in practice, that's only true when it's true. Immunity by infection makes people sick, which increases the number of viruses tremendously. Immunity by vaccines, by contrast, doesn't. That's why we bother with vaccines in the first place.Who said anything about infecting "EVERYONE"????? — Roger Gregoire
And that will only increase the total number of viruses.We only expose the HEALTHY to covid, not the vulnerable — Roger Gregoire
But again, the problem is that immunity through infection requires healthy people to be sick. And sick healthy people make viruses. So if you compare a healthy person getting sick versus not getting sick, then all you have is more viruses versus less viruses.The healthy don't die of of exposure to covid, they gain immunity. — Roger Gregoire
Doesn't matter what it's called. What matters is what it does. If a healthy person doesn't get sick, there's no chance he'll infect a vulnerable person. If a healthy person gets sick, there's a chance he'll infect a vulnerable person. The only way to make a healthy person who isn't sick "immune by infection" is to get him sick.This is referred to as "strategic herd immunity". — Roger Gregoire
The only thing you've said that has even a chance of working is that immune humans clean up the environment. But that doesn't jive with how immunity actually works. I've explained why. Your healthy person's immune system will only fight viruses that invade his body. That happens by chance breathing in the virus. Viruses that land on someone's airway are no less significant than viruses you bury by laying a book down flat. That your immune person would kill the former is fine and dandy, but if that's significant then we should also be placing books flat on surfaces. Are you proposing we do that too? How about fans blowing through flypaper? Viruses that stick to flypaper cannot infect you. I could go all day... should I be patenting these ideas?
Our core disagreement is your fantasy belief that immunity makes you a virus firefighter. It doesn't. The only viruses an immune person's immune system would fight are those that happen to make it inside that immune person's body. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Ironically:The longer we wait and keep our healthy population hidden away (via social distancing) from implementing strategic herd immunity, the sooner we reach the point-of-no-return where we won't have enough fire extinguisher material (healthy people) to put out the huge wildfire (the growing deadlier virus). — Roger Gregoire
You don't get it. If we infect everyone on the planet with covid, we would quickly develop herd immunity. The virus may even die out. Problem is, so would a lot of humans we want to keep alive. Herd immunity isn't the goal; preventing unnecessary deaths is. The get everyone sick strategy is, roughly speaking, the worst case scenario in preventing unnecessary deaths; that is precisely the strategy that maximizes death from covid.unless of course, you have no real sincere intent of trying to understand a view different than yours — Roger Gregoire
The fact that you yourself don't understand a better path to herd immunity is your own failing. We're not so limited. Social distancing slows down the virus spread. That can in principle lead to herd immunity itself; but in practice it buys time and preserves resources. The greatest risk in getting people sick quickly is swamping our resources... there's only so many hospital beds.
If you're serious about being sincere and understanding a point of view different than our own, and you're serious about hypocrisy being bad, then obviously you should try to understand this view that's different than your own. But I keep explaining why you're wrong, and you never address that; instead, you keep repeating your horrible analogies... analogies that I've taken great time here to explain why they are wrong.
If you're not interested in examining the fact that you might be wrong, then I'm afraid you've lost all right to accuse people of being hypocrites and condescending. Incidentally, to point out the obvious, you've chosen in this thread to engage a philosophy forum. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
I don't think so. If I were missing the point, that can be fixed by explaining your point. But I think I understand your point, and just think you're wrong.InPitzotl, you are missing the point. — Roger Gregoire
That doesn't fit.If you view this planet as a singular body
Proposed analogs are:
1. {body}cell => {planet}person
2. {body}wbc => {planet}immune person
2 is not analogous.
Your question is fundamentally flawed; this time because you're carrying your horrible strategy into the non-analogous immune system.What would you do if an infection was invading your (personal) body? -- would you keep the healthy white blood cells away from the infection? — Roger Gregoire
If I were an immune system, then the first challenge would be identifying that there's an infection in the first place. Par for the course I would have a team going about their daily jobs of just checking everything they happen to hit to see if they seem typical; once anything seems off, I would tend to send a crack team somewhere to the off area to do anything it could... surround the area, hoping it can just isolate the threat; and maybe commit suicide if something feels a bit off. Just so you can keep track, this at macro scale might be when you're feeling normal; or might be when you start developing those things we call symptoms (sneezing, fever, cough, etc), those are part of ongoing anything-it-could fights. A virus during this period would be infecting cells and spreading to new areas.
The next step in the process is where I invoke the next strategy... I send out crack teams of cells on a potential suicide mission to experiment until they develop a way that seems to detect the threat using specific indications. The idea here is that I can fight the actual invaders fairly quickly. Once I develop these indicators, I spread this identification method to another team of specialized cells on another suicide mission... those cells will use the new detection systems to find compromised cells... cells that might look normal "to the touch", but wind up emitting these markers... those are infected cells. The job of my soldiers at this point is to kill any cell that looks like it's compromised as quick as possible, disrupting the reproduction system of said invaders.
But all of this sounds very alien when compared to your human race threatening prescriptions of humans. You see, WBC's don't work by getting infected; they work by learning to identify the threats and eliminating them. And once they do, they will fight and kill compromised cells... something we don't want to do with humans; it goes against your stated goal. If I did try your strategy, it would fail quickly along these lines. I would send my "healthy" WBC's to the infection site to get infected. Once infected, the virus will usurp those WBC's, compromising them to the point that they just generate tons more viruses and explode. Now all of my WBC's are dead and the number of viruses greatly increased and, on top of that, they have this nice convenient circulatory system to ride to nearly all other cells in the body. Not moments later, the host would surely die.
Any other questions? Oh, yes, here's one:
The planet is not infected; people are. Infected people crank out viruses, because that's how viruses reproduce. And we don't kill sick people like immune systems kill sick cells; that's directly against your stated goal.If not, then why keep the healthy cells (healthy people) away from the planetary infection? — Roger Gregoire
Your stated goal is to minimize the deaths of people who, by your model, die when infected. Healthy people, when infected, greatly increase the amount of virus in the environment. They get infected when they are exposed, so to minimize the virus in the environment you infect as few healthy people as possible. Sick people per your model die when exposed, and they are part of the environment, which is why you don't want lots of viruses in the environment. Social distancing minimizes the amount of deadly viruses that there are in the environment; viruses don't care if they came from healthy people or vulnerable people, btw; anthropomorphizing them, they'd probably rather not kill... they want lots of nice juicy living cells to reproduce. Immune people are irrelevant; their body fights infections they happen to get (as in kills infected cells), but that doesn't affect anyone else's body.
How so? This violates even your own premises. Did you not stipulate that healthy people who become infected become immune? What does any healthy person have to fear, immune or no, from the virus? If they're not immune and get exposed, they'll just get immune, per your premise. If they are, they just are immune. Where is this certain death coming from?Keeping healthy cells (healthy people) away from the infection = certain death, ...in either respect. — Roger Gregoire
This is logically inconsistent... it sounds more doomsaying, which smells more like psychology than good philosophy. -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
It's a false analogy. My white blood cells will fight infections that I have, if they recognize the infection. But my white blood cells are not going to fight your infection; they aren't launched into the air to seek and destroy viruses, and they don't hop into your blood stream. So from the inter-body analog to the inter-personal analog, immune people are not analogous to white blood cells.This is an analogy. In other words, no reputable doctor would ever recommend you fight an infection by keeping your white blood cells away from a bodily infection. — Roger Gregoire
In those two domains, there is no analog. We can fight the virus using vaccines, but vaccines don't destroy viruses either; they just train immune systems to fight it without an infection. So whereas a white blood cell attacks a virus that's there, a vaccine only works when there's no virus there.
Ignoring your mixed appeal to authority fallacy and true scottsman fallacy, those two things aren't analogous.In other words, no reputable doctor would ever recommend you fight an infection by keeping your white blood cells away from a bodily infection. And likewise, no reputable scientist would recommend we fight an infection to a segment of this planet, by keeping the healthy segment away from the infection. — Roger Gregoire
I've already discussed that before. The infections stop themselves. That fire will burn the tree, after which it's a burnt tree and the fire goes out. The main problem in a forest fire is that trees that are in the process of burning have flames on them, and those flames can jump to nearby trees. Socially distancing is analogous to building distance between the trees, such that the fire on trees that are currently burning doesn't jump to other trees. That analogy breaks down because trees are fixed in place, but we can move (nevertheless building distance between a thing to protect and the trees that are on fire is a bona fide firefighting technique).Correct! ...and how do you stop an infection??? — Roger Gregoire
But that's irrelevant... why do you think the white blood cells in your blood stream would fight viruses on other people?do you keep your "healthy" cells; white blood cells away from it? — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Roger, you're literally saying that if we don't increase the virus growth, then the virus growth will increase out of control. That goes against all logic, common sense, and science.If we don't let our healthy population engage in mask-less social activities very soon (within the next month or two), we will reach the point-of-no-return. This is the point where the virus growth exceeds man's ability to stop this growth. — Roger Gregoire
But you're saying, we need to prevent burning the forest down, so let's make the fire spread more.Keeping firefighters away from a fire does not stop the fire, it only allows the fire to grow. — Roger Gregoire
What? No! If you aren't infected, you don't die from infection.Keeping white blood cells away from an infection does stop the infection, ...it only insures certain death to the body. — Roger Gregoire
Infections are the problem. More infections means more deaths. Less infections means less deaths. No infections means no deaths. Maximal spread means maximal infection. "Increase out of control" suggests there's a number of infections such that, if that number is hit, it is out of control... you get to the maximum number by infecting more people, which is exactly what you're promoting! -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
C1 wouldn't follow if you granted all three premises. It's worse than unsound... it's invalid.Your P2 and P3 are false, thereby making your conclusion unsound (logically flawed). — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
C1 does not follow from P1, P2, and P3.Echarmion and InPitzotl do you agree or disagree with this overly simplistic logic? — Roger Gregoire
P1. Vulnerable trees die when they are burned.
P2. Hearty trees that are burned lose their flammability.
P3. The more non-flammable hearty trees you have in your forest, the greater protective effect for the vulnerable trees.
C1. Therefore, burning more hearty trees result in less burning of vulnerable trees.
Where's the flaw? -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
Okay, so let's focus on the air path then. Your theory is that human breathing works as an air filter; but the contact thing is still true. Respiratory viruses (of which this is one) infect people by physically contacting those nice wet warm surfaces inside our lungs. But viruses are abstract; they're invisible, which is part of the problem, so it's hard to visualize them.Where the healthy immune human may be more efficient at decontaminating, is through breathing in air borne viruses. Basically the healthy immune human is an air filtration system, breathing in virus contaminated air, and expelling less virus than they take in. Continual breathing one breath after another will slowly filter (remove) virus from the air. — Roger Gregoire
So let's visualize how this works by something easier to imagine... visible smoke. Smoke is just smoke particles suspended in air, and just like those viruses would stick on your nice wet warm alveoli, smoke particles would also stick to those (analogously we could talk about how breathing in carcinogenic smoke can cause lung cancer in this manner, but that's unnecessary, other than to demonstrate the validity of this analogy). So your healthy human can only clean up viruses by breathing the same manner that any breathing human can clean up the smoke from the room by breathing, since it's essentially the same exact kind of contact in both scenarios, with more or less the same effect (particles getting stuck to aveoli; be they smoke particles or viruses).
I think you can see where I'm going here. The analogous situation is that you're going to clear out a smoke filled room by sending humans inside it to breathe. That will indeed clear the smoke, a trivial amount, but it's way below the level of even simply opening a window.
But you're comparing irrelevant factors. Let H(B) be the amount of viruses produced by a healthy infected person; and V(B) be the amount produced by a vulnerable infected person. If there are h healthy people infected and v vulnerable infected, then we have as a baseline h*H(B)+v*V(B) viruses produced. If h1<h2, then the difference between h2 and h1 healthy people getting infected is a contribution of (h2-h1)*H(B) viruses, and that's positive given only that H(B)>0, which it is. In other words, infecting more healthy people adds a risk proportional to H(B) times that many healthy people; that H(B)<V(B) is lovely and all, but that risk is still necessarily positive when H(B)>0, which it is.Healthy immune systems allow less total virus replication, which thereby means LESS to spread.
Weak immune systems allow more total virus replication, which thereby means MORE to spread. — Roger Gregoire
You severely misunderstand herd immunity. You said it yourself; the virus in your model is only viable for 7 days. That's the main factor. So a virus has a lifetime; it's born day 0 in an infected person. For viruses to infect another person, it has to make it from this person in state B to a person in state A, in a sufficient quantity to cause that person to get infected. Since the lifetime is 7 days, then on average the viruses produced by this state B person need to infect at least one other person (in state A) within 7 days. If that average becomes less than one person, then the number of infected people would start to drop; that roughly represents less density of the virus in the population than required to infect the next guy. Once that happens, the living virus's population will tend to drift down to 0, and once that happens, you have herd immunity.And again, healthy immune people "clean up" (stop the spread of) covid-19 contamination. If this were not true, then herd immunity would be impossible. — Roger Gregoire -
Will Continued Social Distancing Ultimately Destroy All Human Life on this Planet?
No, it fails. In your car universe, a car would be in state B if and only if the tacks converted the car into a tack factory. But your story claims that state B is simply having tacks get stuck in tires. A person infected by a virus, by definition, is a person whose living cells the virus usurped into reproduction.The car analogy fits perfect. You may have the virus all over your body (as with tacks all over the good tread of tires), but once the virus finds a host, i.e. gets into your respiratory system (within the soft bald section of the tire) then replication begins. — Roger Gregoire
Sure, but immune people shed about as much as scotch tape with viruses stuck on it, viruses that get buried for 7 days under mounds of paper, or viruses trapped in soap bubbles that will disintegrate in 10 seconds.So then do you agree that vulnerable people shed more than immune people? ...right? — Roger Gregoire
You're making this sound like healthy people clean up the environment, but it doesn't really work like that. Infection requires physical contact with the virus through some means (air or surfaces). Imagine a contaminated gas station, and let's just say that our goal is to decontaminate it. The best case scenario for healthy persons to decontaminate the gas station would require them to go in and literally rub their bodies against all surfaces; and even that wouldn't really be all that effective... you'd do far better just breaking out a sponge and soapy water, which would actually work pretty well for the decontamination, than you could hope to do by exploiting this healthy human. Possibly you'd do better in your sanitation using a lint roller than your immune human.
Wrong. Vulnerable versus healthy makes no difference. Contributors are infected people, whether healthy or vulnerable. Vulnerable versus healthy only changes one thing, irrelevant to transmission... whether that infected contributor eventually becomes immune and no longer spreads/produces the virus as a result of being immune, or whether that infected contributor eventually becomes dead and no longer spreads/produces the virus as a result of not being alive.relatively speaking, vulnerable people are 'Contributors' and immune people are 'Removers', ...right? — Roger Gregoire
InPitzotl
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