Originally posted by mmQ
If a synchronized swimmer starts drowning, do they all start drowning?
If the first synchronized swimmer is drowning, and the second synchronized swimmer tries to save their life, and the drowning synchronized swimmer latches onto the second synchronized swimmer and starts to pull him under, and then the third synchronized swimmer tries to help, but ends up getting pulled under by the first two drowning synchronized swimmers, and then a fourth synchronized swimmer enters the fray and is pulled down by the first three synchronized swimmers, until all the would be heroes end up getting pulled under, that would be a synchronized group drowning.
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Originally posted by -SpectraL
If the first synchronized swimmer is drowning, and the second synchronized swimmer tries to save their life, and the drowning synchronized swimmer latches onto the second synchronized swimmer and starts to pull him under, and then the third synchronized swimmer tries to help, but ends up getting pulled under by the first two drowning synchronized swimmers, and then a fourth synchronized swimmer enters the fray and is pulled down by the first three synchronized swimmers, until all the would be heroes end up getting pulled under, that would be a synchronized group drowning.
Yeah but it would score really poorly with the judges, unless there was a second group of synchronized swimmers that were on the same team as the first group that did the same thing.
Originally posted by mmQ
Yeah but it would score really poorly with the judges, unless there was a second group of synchronized swimmers that were on the same team as the first group that did the same thing.
The judges would also have to jump in and get pulled under. Sorry.
The problem with the vast majority of masks is that the coronavirus particle is much, much smaller than your average virus particle. It can easily slip through even the best of masks. Because of its light weight, it can also suspend in the air, through the breath of its victim. You know how in winter your breath creates a white cloud that floats a few feet before disappearing? Inside that exhaled cloud is moisture, and inside that moisture the coronavirus is suspended. They can also continue on and carry themselves in the wind, after being expelled. And because the virus exists as such small particles, it can spread even easier, because all it takes is a single strand of it to infect, and there are many more strands on a square inch of this virus than a standard virus. All of this was intentionally designed in a US laboratory, as an intended bio-weapon. It's a chimera.
Some very good info about the Corona viruses... [hosted by Suresh Subramani - Distinguished Professor Emeritus. Section of Molecular Biology and Research].
Originally posted by -SpectraL
The problem with the vast majority of masks is that the coronavirus particle is much, much smaller than your average virus particle. It can easily slip through even the best of masks. Because of its light weight, it can also suspend in the air, through the breath of its victim. You know how in winter your breath creates a white cloud that floats a few feet before disappearing? Inside that exhaled cloud is moisture, and inside that moisture the coronavirus is suspended. They can also continue on and carry themselves in the wind, after being expelled. And because the virus exists as such small particles, it can spread even easier, because all it takes is a single strand of it to infect, and there are many more strands on a square inch of this virus than a standard virus. All of this was intentionally designed in a US laboratory, as an intended bio-weapon. It's a chimera.
I already covered this idiot.
The novel coronavirus virions average in size around .125 microns, but their primary vector is respiratory droplets even the smallest of which typically ranging in size from 1-5 microns.
Also “weight” has nothing to do with whether or not a virus can “hang in the air”. It’s about whether or not the virus’ vector is a medium that commonly exists in an aerosolized form......like respiratory droplets.
And you’re acting like its size is something previously unheard of. Plenty of airborne viruses are roughly the same size. Your typical rhinovirus is many times smaller.
Wait a second why am I explaining epidemiology to a fucking lunatic. Nothing you say is based in objective reality, it’s just you spouting off the first random shit that pops into your deranged mind
