Neurons replacement argument
The neuron replacement argument is based on experiments with replacement of neurons in a consciousness and ixperiencitness producing body like a human being while maintaining identical or near identical physapaths. Since there are billions of neurons in a human brain, we can imagine the replacement of one or more neurons that are made of different matter but have the same structure and functioning as the original replaced neurons. The replacement schedule can be one neuron replaced at a time to any desired number being replaced at a time. The purpose of these experiments is to see if the number or amount of neurons that are replaced will effect the resulting behavior. Because the experiment requires that the brain's resulting structure and functioning be the same as it would have been before the replacement of of neurons, in any sequence that resulting behavior or behaviorpath should be the same.
The awarepath that is produced at each step of the replacement process should continue to be identical to the awarepath produced by the physapath where there are no replaced neurons. The important question is what happens to the ixperiencitness as this process proceeds. Does the ixperiencitness change to that of another ixperiencitness at the first neuron replacement? If so then why? This does not seem likely. Is there are certain number of neurons that have to be replaced before the ixperiencitness is changed? If so why? Does the speed of replacement of neurons have an effect on the resulting ixperiencitness? If so why? there can also be the possibility of a continuum of change. this means that the ixperiencitness changes by a percentage of a percent at the replacement of each neuron. It is estimated that there are eighty billion neurons in an average human brain. In this case it might be that each neuron replacement changes the ixperiencitness by about a billionth of a percent.
The science of superimmortality predicts that the resulting physapath, no matter how many neurons, are replaced or at what speed the neurons are replaced at resulting ixperiencitness will be identical if the resulting physapath is identical or nearly identical.
