Fitoexperiments
Fitoexperiments are experiments dealing with fidentireplicas or fragmented identireplicas.
Contents
- 1 Fidentireplica specific experiments
- 1.1 Single split experiments with correct communication
- 1.2 Multiple split experiments with correct communication
- 1.3 Neuron level split experiments with correct communication
- 1.4 Single split experiments with preknowledge
- 1.5 Multiple split experiments with preknowledge
- 1.6 Neuron level split experiments with preknowledge
- 1.7 Single split experiments with random exactness of functioning
- 1.8 Multiple split experiments with random exactness of functioning
- 1.9 Neuron level split experiments with random exactness of functioning
- 1.10 Single split experiment with random exactness of functioning with multiple overlap
- 1.11 Multiple split experiment with random exactness of functioning with multiple overlap
- 1.12 Neuron level split experiment with random exactness of functioning with multiple overlap
- 1.13 Single split experiments with correct communication with increasingly non synchronous time progression speeds
- 1.14 Multiple split experiments with correct communication with increasingly non synchronous time progression speeds
- 1.15 Neuron level split experiments with correct communication with increasingly non synchronous time progression speeds
- 1.16 Single split experiments with preknowledge with increasingly non synchronous time progression speeds
- 1.17 Multiple split experiments with preknowledge with increasingly non synchronous time progression speeds
- 1.18 Neuron level split experiments with preknowledge with increasingly non synchronous time progression speeds
- 1.19 Single split experiments with random exactness of functioning with increasingly non synchronous time progression speeds
- 1.20 Multiple split experiments with random exactness of functioning with increasingly non synchronous time progression speeds
- 1.21 Neuron level split experiments with random exactness of functioning with increasingly non synchronous time progression speeds with increasingly non synchronous time progression speeds
- 1.22 Single split experiments with random exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
- 1.23 Multiple split experiments with random exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
- 1.24 Neuron level split experiments with random exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
- 1.25 Single split experiments with close approximate communication
- 1.26 Multiple split experiments with close approximate communication
- 1.27 Neuron level split experiments with close approximate communication
- 1.28 Single split experiments with close approximate preknowledge
- 1.29 Multiple split experiments with close approximate preknowledge
- 1.30 Neuron level split experiments with close approximate preknowledge
- 1.31 Single split experiments with random exactness of functioning
- 1.32 Multiple split experiments with random exactness of functioning
- 1.33 Neuron level split experiments with random exactness of functioning
- 1.34 Single split experiment with random exactness of functioning with multiple overlap
- 1.35 Multiple split experiment with random exactness of functioning with multiple overlap
- 1.36 Neuron level split experiment with random close approximate exactness of functioning with multiple overlap
- 1.37 Single split experiments with close approximate communication with increasingly non synchronous time progression speeds
- 1.38 Multiple split experiments with close approximate communication with increasingly non synchronous time progression speeds
- 1.39 Neuron level split experiments with correct communication with increasingly non synchronous time progression speeds
- 1.40 Single split experiments with close approximate preknowledge with increasingly non synchronous time progression speeds
- 1.41 Multiple split experiments with close approximate preknowledge with increasingly non synchronous time progression speeds
- 1.42 Neuron level split experiments with close approximate preknowledge with increasingly non synchronous time progression speeds
- 1.43 Single split experiments with random close approximate exactness of functioning with increasingly non synchronous time progression speeds
- 1.44 Multiple split experiments with random close approximate exactness of functioning with increasingly non synchronous time progression speeds
- 1.45 Neuron level split experiments with random close approximate exactness of functioning with increasingly non synchronous time progression speeds with increasingly non synchronous time progression speeds
- 1.46 Single split experiments with random close approximate exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
- 1.47 Multiple split experiments with random close approximate exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
- 1.48 Neuron level split experiments with random close approximate exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
- 2 Standard Fitoexperiments
Fidentireplica specific experiments
- Fidentireplica specific experiments are specific experiments using or dealing with only fidentireplicas. This means the specific types of breaking up of itobodies or itobrains into parts and seeing what consciousnesses and ixperiencitness will be produced when their is change in the functioning and when all the parts continue to function like they are or were when they would have been together. These types of experiments can tell us a great deal about how and under what conditions consciousness is produced. We also might find with these experiments that the universe is a much more prolific produce of consciousness of than we ever imagined.
Single split experiments with correct communication
Single split experiment with correct communication and with increasing distance apart
Multiple split experiments with correct communication
Multiple split experiment with correct communication and with increasing distance apart
Neuron level split experiments with correct communication
Neuron level split experiment with correct communication and with increasing distance apart
Single split experiments with preknowledge
Single split experiments with preknowledge and with increasing distance apart
Multiple split experiments with preknowledge
Multiple split experiments with preknowledge and with increasing distance apart
Neuron level split experiments with preknowledge
Neuron level split experiments with preknowledge and with increasing distance apart
Single split experiments with random exactness of functioning
Single split experiments with random exactness of functioning and with increasing distance apart
Multiple split experiments with random exactness of functioning
Multiple split experiments with random exactness of functioning and with increasing distance apart
Neuron level split experiments with random exactness of functioning
Neuron level split experiment with random exactness of functioning and with increasing distance apart
Single split experiment with random exactness of functioning with multiple overlap
Single split experiment with random exactness of functioning with multiple overlap and with increasing distance apart
Multiple split experiment with random exactness of functioning with multiple overlap
Multiple split experiment with random exactness of functioning with multiple overlap and with increasing distance apart
Neuron level split experiment with random exactness of functioning with multiple overlap
Neuron level split experiment with random exactness of functioning with multiple overlap and with increasing distance apart
Single split experiments with correct communication with increasingly non synchronous time progression speeds
Single split experiments with correct communication and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with correct communication with increasingly non synchronous time progression speeds
Multiple split experiments with correct communication and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with correct communication with increasingly non synchronous time progression speeds
Neuron level split experiments with correct communication and with increasing distance apart with increasingly non synchronous time progression speeds
Single split experiments with preknowledge with increasingly non synchronous time progression speeds
Single split experiments with preknowledge and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with preknowledge with increasingly non synchronous time progression speeds
Multiple split experiments with preknowledge and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with preknowledge with increasingly non synchronous time progression speeds
Neuron level split experiments with preknowledge and with increasing distance apart with increasingly non synchronous time progression speeds
Single split experiments with random exactness of functioning with increasingly non synchronous time progression speeds
Single split experiments with random exactness of functioning and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with random exactness of functioning with increasingly non synchronous time progression speeds
Multiple split experiments with random exactness of functioning and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with random exactness of functioning with increasingly non synchronous time progression speeds with increasingly non synchronous time progression speeds
Neuron level split experiments with random exactness of functioning and with increasing distance apart with increasingly non synchronous time progression speeds
Single split experiments with random exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
Single split experiments with random exactness of functioning with multiple overlap and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with random exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
Multiple split experiments with random exactness of functioning with multiple overlap and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with random exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
[[Neuron level split experiments with random exactness of functioning with multiple overlap and with increasing distance apart] with increasingly non synchronous time progression speeds]]
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Single split experiments with close approximate communication
Single split experiment with close approximatet communication and with increasing distance apart
Multiple split experiments with close approximate communication
Multiple split experiment with close approximate communication and with increasing distance apart
Neuron level split experiments with close approximate communication
Neuron level split experiment with close approximate communication and with increasing distance apart
Single split experiments with close approximate preknowledge
Single split experiments with close approximate preknowledge and with increasing distance apart
Multiple split experiments with close approximate preknowledge
Multiple split experiments with close approximate preknowledge and with increasing distance apart
Neuron level split experiments with close approximate preknowledge
Neuron level split experiments with close approximate preknowledge and with increasing distance apart
Single split experiments with random exactness of functioning
Single split experiments with random close approximate exactness of functioning and with increasing distance apart
Multiple split experiments with random exactness of functioning
Multiple split experiments with random close approximate exactness of functioning and with increasing distance apart
Neuron level split experiments with random exactness of functioning
Neuron level split experiment with random close approximate exactness of functioning and with increasing distance apart
Single split experiment with random exactness of functioning with multiple overlap
Single split experiment with random close approximate exactness of functioning with multiple overlap and with increasing distance apart
Multiple split experiment with random exactness of functioning with multiple overlap
Multiple split experiment with random close approximate exactness of functioning with multiple overlap and with increasing distance apart
Neuron level split experiment with random close approximate exactness of functioning with multiple overlap
Neuron level split experiment with random exactness of functioning with multiple overlap and with increasing distance apart
Single split experiments with close approximate communication with increasingly non synchronous time progression speeds
Single split experiments with correct communication and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with close approximate communication with increasingly non synchronous time progression speeds
Multiple split experiments with correct communication and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with correct communication with increasingly non synchronous time progression speeds
Neuron level split experiments with correct communication and with increasing distance apart with increasingly non synchronous time progression speeds
Single split experiments with close approximate preknowledge with increasingly non synchronous time progression speeds
Single split experiments with close approximate preknowledge and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with close approximate preknowledge with increasingly non synchronous time progression speeds
Multiple split experiments with close approximate preknowledge and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with close approximate preknowledge with increasingly non synchronous time progression speeds
Neuron level split experiments with close approximate preknowledge and with increasing distance apart with increasingly non synchronous time progression speeds
Single split experiments with random close approximate exactness of functioning with increasingly non synchronous time progression speeds
Single split experiments with random close approximate exactness of functioning and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with random close approximate exactness of functioning with increasingly non synchronous time progression speeds
Multiple split experiments with random close approximate exactness of functioning and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with random close approximate exactness of functioning with increasingly non synchronous time progression speeds with increasingly non synchronous time progression speeds
Neuron level split experiments with random close approximate exactness of functioning and with increasing distance apart with increasingly non synchronous time progression speeds
Single split experiments with random close approximate exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
Single split experiments with random close approximate exactness of functioning with multiple overlap and with increasing distance apart with increasingly non synchronous time progression speeds
Multiple split experiments with random close approximate exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
Multiple split experiments with random close approximate exactness of functioning with multiple overlap and with increasing distance apart with increasingly non synchronous time progression speeds
Neuron level split experiments with random close approximate exactness of functioning with multiple overlap with increasingly non synchronous time progression speeds
Neuron level split experiments with random close approximate exactness of functioning with multiple overlap and with increasing distance apart with increasingly non synchronous time progression speeds
- For every type of fragmentation of an original each of the standard fitoexperiments can be applied.
Standard Fitoexperiments
- Standard Fitoexperiments are the same type of experiments applied to all types of itobodies
See also: Oriexperiments, Idoexperiments, Citoexperiments, Vitoexperiments, Fitoexperiments, Enhaexperiments, Isoexperiments, Musexperiments, Insiexperiments, Simiexperiments.
Fitomultireplication experiments
Transuniversal concepts
Fitointerchangeability experiments
Fitoassimulation experiments Concept of assimilation of matter:
Transuniversal Fitomultireplication experiments
Fitosynchronization experiments
Fitofuturality experiments Fitofuturazation expereincing the present in the future
Fitohistorality experiments Fitohistorazation expereincing the present in the past
Fitotimultiplicity experiments
Fitoquondamality experiments Experiencing some past now
Fitoprospectality experiments Fitoprospectazation Experiencing some future now
Fitosimultaneousness experiments
Fitotemporality experiments The combination of time related principles
Epifitoexperiments
Fitoinception experiments-- when in time it began
Fitoexordium experiments-- when or where along the awarepath/ physipath
Fitocreation experiments-- who or what created it
Fitomodality experiments -- how it was created
Fitoautochthonality experiments -- where it comes from
Fitocausality experiments-- why it was made
Fitoerudition experiments -- knowledge about
Fitovergence experiments
Fitophysidivergence experiments
Fitoawaredivergence experiments
Fitophysiconvergence experiments
Fitoawareconvergence experiments
Fitomultiphysivergence experiments
Fitomultiawarevergence experiments
Fitosimiconvergence experiments
Fitosimiphysiconvergence experiments
Fitosimiawareconvergence experiments
Fitosimidivergence experiments
Fitosimiphysidivergence experiments
Fitosimiawaredivergence experiments
Fitosimimultivergence experiments
Fitosimimultiphysivergence experiments
Fitosimiawaremultivergence experiments
Fitophysicontinuance experiments
Fitoawarecontinuance experiments
Fitophysiextension experiments
Fitoawareextension experiments
Fitophysicontinuity experiments
Fitoawarecontinuity experiments
Fitophysidiscontinuity experiments
Fitoawarediscontinuity experiments
Fitosimiawareidentity experiments
Fitosimiphysidentity experiments
Fitosimiphysicontinuance experiments
Fitosimiawarecontinuance experiments
Fitosimiphysiextension experiments
Fitosimiawarextension experiments
Fitosimiphysicontinuity experiments
Fitosimiawarecontinuity experiments
Fitosimiphysidiscontinuity experiments
Fitosimiawarediscontinuity experiments
Fitoconenhancement experiments
Fitoplexenumeration experiments
Fitoepifragmentation experiments
Fitoranfragmentation experiments
Fitotransmultiplex experiments
Fitosupermultiplex experiments
Fitoawareunification experiments
Fitophysiunification experiments
Fitosuperunification experiments
Fitopreferenceality experiments
Fitoindeterminality experiments
Fitoculturalrelativism experiments
Fitosocioenhancement experiments Society advancement