Multiple identical circuit experiments

Because electronic devices may some day be able to produce consciousness and ixperiencitness, The same laws that apply to biological consciousness and ixperiencitnesses that awaretheory predicts may also (probably will) apply to electronically produced consciousnesses and ixperiencitnesses. On possible first step is the experiments with Multiple identical circuits. The experiments would be the same type as with neurons.

When we consider the proposed results of these experiments they will not seem unusual for an electrical engineer. He expects that electronic circuits that are identical enough to each other or to an original circuit to function identically to the original circuit and to each other. If they could not count on this property of circuits, electronics would just be a case of hit and miss. Totally a miss if no identical circuits functioned the same way or at least with in the required tolerances.

Multiple identical circuit experiments have been carried out to such an extent that many of the properties that they have can be stated as follows.

1. The equivalently functioning matter can be changed in the circuit and there will be the same total functioning behavior as if the structure has not changed. For instance an gold atom can be replaced by another gold atom in the same physical state.
2. The process of making the circuit can change if the resulting structure and functioning is the same.
3. The structure of a circuit can change if the surrounding circuits are changed to adapt to it producing the same end results.
4. Identical structure of a circuit plus identical environmental conditions and quantum mechanical effects will usually produce the same functioning behavior.
5. Many times approximate structure, environmental conditions, and quantum effects will produce the same functioning behavior.
6. The history of the circuit can change if the resulting structure and functioning has not changed or changed to much or in the .
7. Electronic circuits can be made of different matter and they can still function the same way
8. Electronic circuits can be made at different places and times and they can still function the same way
9. Electronic circuits can be combined doing ever more complex functioning.
10. Electronic circuits can monitor each other's functioning in many different and complex ways
11. Electronic circuits can monitor each other's structure in many different and complex ways.
12. Electronic circuits can monitor each other's structure and functioning in many different and complex ways.
13. Electronic circuits can monitor each other's behavior in many different and complex ways.
14. Parallel electronic circuits can be created where the functioning of one part can serve more than one function at a time (like a neuron can in a brain).