Multiple identical neuron experiments

Simpler experiments than multiple cidentireplica experiments are multiple identical neuron experiments. Multiple identical neuron experiments can actually be carried out with closer and closer approximation.

A neuron has behavior and this behavior is observable. Will a neuron that is exactly like another neuron and with the same environment, stimulation, and quantum mechanical effects behave the same as the original neuron that it is an identical replica of? If not why would it not behave the same? If they do not behave the same the scientist would say that there is some physical factor or factors that are not seen or understood that is influencing the behavior of the neuron even if the cannot find or understand this factor at this time. He does not assume that there is some factor or factors that is supernatural and incapable to be understood by humans or other conscious beings.

If the scientist continues to do the identical neuron experiments over and over again with the conditions as close to the original conditions as possible he will get statistical results that likely will center on some average behavior. Of course the results could be totally random. Even in quantum mechanics there will be a probability distribution where some results will be more likely than others. This means that predictability is maintained even in a probabilistic subatomic world. In the larger more macroscopic world that the neuron's behavior exists and can be observed in if the behavior is totally random there are controlling or effecting factors that are not being controlled or understood.

The scientist can change the matter in the neuron. He can change the place where the neuron came from. How old the neuron is. If it is from a human, an animal or synthesized in a lab. The scientist can compare the results of an number of experiments with the same starting and functioning conditions. He can determine if the same structure and functioning of the neuron produces the same behavior in spite of having change in the matter that the neuron is made of. The place and time that the neuron exist in. The history of the neuron etc. The neuron behavior will change if it is stimulated in different ways, if its environment or composition are different enough.

Multiple identical neuron experiments can be additive with extra neurons until they are as complex as a brain.

The behavior of a neuron can be defined in different ways. It can include every change in the neuron down beyond the subatomic level, or it can just include how it will effect other neurons that it is connected directly to or by way of synapses, and that are surrounded by it. The behavior can then be for a defined period of time.