MRNA, 5G, nanoparticles, etc.. all sound too complicated solution for an age old problem.
Do you know that rodent are actually vaccine hesitant? sorry I mean poison shy? (An actual scientific term describing it).
Basically they won't eat a new food unless they are certain it is "kosher", after probing it, they might only venture and take only small bites and wait to see if it makes them sick or not, other prefer to wait until other "Rats" have eaten it.
It is actually a challenge to kill rats with poison, those damn rats are just too "shy".
Interestingly ne of the solutions is: Anticoagulants
"Anticoagulants are defined as chronic (death occurs one to two weeks after ingestion of the lethal dose, rarely sooner), single-dose (second generation) or multiple-dose (first generation) rodenticides"
Assuming the first type of anycoagulants, rat life span is about 1 year (52 weeks), if it takes 1-2 weeks to kill off a rat, assuming a human life span of 75, it will then take 1.5 to 3 years to kill a human.
If the second type, then it will only show in the second generation, i.e. the jabbed will birth children but those children will be weak and unable to reproduce.
If the third type, then more boosters are required.
Note: While anticoagulants seem to do the opposite of what we see in human (blood clotting), similarities overall are striking, and it should be considered that they have used a type of agent that messes up blood clotting, as it gives an ideal solution to kill someone during a long period of time.
MRNA, 5G, nanoparticles, etc.. all sound too complicated solution for an age old problem.
Do you know that rodent are actually vaccine hesitant? sorry I mean poison shy? (An actual scientific term describing it).
Basically they won't eat a new food unless they are certain it is "kosher", after probing it, they might only venture and take only small bites and wait to see if it makes them sick or not, other prefer to wait until other "Rats" have eaten it.
It is actually a challenge to kill rats with poison, those damn rats are just too "shy".
Interestingly ne of the solutions is: Anticoagulants
"Anticoagulants are defined as chronic (death occurs one to two weeks after ingestion of the lethal dose, rarely sooner), single-dose (second generation) or multiple-dose (first generation) rodenticides"
Assuming the first type of anycoagulants, rat life span is about 1 year (52 weeks), if it takes 1-2 weeks to kill off a rat, assuming a human life span of 75, it will then take 1.5 to 3 years to kill a human.
If the second type, then it will only show in the second generation, i.e. the jabbed will birth children but those children will be weak and unable to reproduce.
If the third type, then more boosters are required.
Note: While anticoagulants seem to do the opposite of what we see in human (blood clotting), similarities overall are striking, and it should be considered that they have used a type of agent that messes up blood clotting, as it gives an ideal solution to kill someone during a long period of time.