Physapath awarepath ixperiencitness proof 8

File physapath awarepath ixperiencitness proof

Ixperiencitness multiplicity principle: there are many different ixperiencitnesses

Ixperiencitness continuum principle: ixperiencitnesses are not discrete they form continuums

Ixperiencitness production principle: physapaths produce ixperiencitnesses and ixpepaths

Physapath to ixperiencitness production principle: many different physapaths can produce the same ixperiencitness

Awarepath to ixperiencitness convergence principle: many different awarepaths can have the same ixperiencitness

The physapath awarepath ixperiencitness proof that many different physapaths can produce awarepaths with the same ixperiencitness

   1. There exist or can exist many different physapaths
   2. There exist or can exist enough variations in physapaths to produce different awarepaths
   3. At any point along a physapath enough change in the sensepath, enviropath, or Qmpath can change the physapath 
   4. If there is enough change in the physapath then there will be a change in the awarepath
   5. Physapaths are not always determined 
   6. It is hard to exactly control a physapath
   7. How can a ixperiencitness stick to a physapath if it is always changing every time the physapath changes
   8. If slightly different physapaths produce totally different ixperiencitnesses what happens when the physapath diverges in the same body to different physasections producing ixperiencitnesses? You have one body producing many different ixperiencitnesses. Would the person be aware of the changes in the ixperiencitness? What would he be aware of If he was aware of the chagne in the ixperiencitness?  
   9. If every change in the physipath produces a different ixpepath then ----  a change in an atom would produce a change in the ixperiencitness. If every change in the physapath produces a different ixpepath then a change in the placement of a synapse would produce a change in the ixperiencitness.
   10. At any moment in our lives we believe that if conditions were different we would have experienced something different. Our brain would have functioned differently but we would have experienced the consciousness that this brain produced/
   11.  A gradual change in the ixperiencitness as the physapath change makes more sense. No change in the ixperiencitness as the physipath changes in terms of replacement of equalling functioning matter makes more sense

Only one physapath (awarepath) for each ixperiencitness Several physapaths (awarepath) for each unique ixperiencitness

What is the argument(s) that there can not be unique distinct ixperiencitnesses --- no wise percentage identical ixperiencitnesses

   1. There are not unique distinct physipaths
   2. There are not unique distinct physapaths 
   3. There are not unique distinct awarepaths  
   4. Decreased predictability

Why should we believe that there are many different physapaths that will produce a consciousness that we will experience when they actually exist?

Why should we believe that there are many different physapaths that will produce a consciousness that you will experience when any one of them actually exists or is produced?

Is ixperiencitness a property of matter produced by the structure and functioning of a matter or something else natural or supernatural?

Based on these principles:

Principle of Divergence of physapath given different enough sensepaths Physapath Multiple Divergence Principle:

Diversity principles:

   1. Physipath Diversity Principle: Physipaths can be different from each other. Not all Physipaths are identical.
   2. Physapath Diversity Principle: Physapaths can be different from each other. Not all Physapaths are identical.
   3. Sensepath Diversity Principle: : Sensepaths can be different from each other. Not all Sensepaths are identical.
   4. Enviropath Diversity Principle: Enviropaths can be different from each other. Not all Enviropaths are identical.
   5. Externapath Diversity Principle: Enviropaths can be different from each other. Not all Enviropaths are identical.
   6. Awarepath Diversity Principle: : Awarepaths can be different from each other. Not all Awarepaths are identical.
   7. Ixpepath Diversity Principle: : Ixpepaths can be different from each other. Not all ixperiencitness are identical.

Application Principles:

   1. Sensepath to Physapath Application Principle: Different parts of sensepaths can be applied to different parts of physapaths.
   2. Enviropath to Physapath Application Principle: Different parts of enviropaths can be applied to different parts of physapaths.
   3. Externapath to Physapath Application Principle: Different parts of externapaths can be applied to different parts of physapaths.

Interpolation Creation Principles:

   1. New potential physipaths can be created through the process of interpolation between two or more other physipaths
   2. New potential physapaths can be created through the process of interpolation between two or more other physapaths
   3. New potential awarepaths can be created through the process of interpolation between two or more other awarepaths
   4. New potential ixpepaths can be created through the process of interpolation between two or more other ixpepaths
   5. New potential sensepaths can be created through the process of interpolation between two or more other sensepaths
   6. New potential enviropaths can be created through the process of interpolation between two or more other enviropaths
   7. New potential externapaths can be created through the process of interpolation between two or more other externapaths

Extrapolation Creation Principles:

   1. New potential physipaths can be extrapolated by modifying aspects of other physipaths
   2. New potential physapaths can be extrapolated by modifying aspects of other physapaths
   3. New potential awarepaths can be extrapolated by modifying aspects of other awarepaths
   4. New potential ixpepaths can be extrapolated by modifying aspects of other ixpepaths
   5. New potential sensepaths can be extrapolated by modifying aspects of other sensepaths
   6. New potential enviropaths can be extrapolated by modifying aspects of other enviropaths
   7. New potential externapaths can be extrapolated by modifying aspects of other externapaths

Interpolation Principles:

   1. New physipaths can be created through the process of applying interpolated sensepaths to physipaths 
   2. New physipaths can be created through the process of applying interpolated enviropaths to physipaths 
   3. New physipaths can be created through the process of applying interpolated externapaths to physipaths 
   4. New physapaths can be created through the process of applying interpolated sensepaths to physapaths 
   5. New physapaths can be created through the process of applying interpolated enviropaths to physapaths 
   6. New physapaths can be created through the process of applying interpolated externapaths to physapaths 
   7. New awarepaths can be created through the process of applying interpolated sensepaths to physapaths 
   8. New awarepaths can be created through the process of applying interpolated enviropaths to physapaths 
   9. New awarepaths can be created through the process of applying interpolated externapaths to physapaths 
      
   1. New potential physipaths can be created through the process of applying interpolated sensepaths to physipaths 
   2. New potential physipaths can be created through the process of applying interpolated enviropaths to physipaths 
   3. New potential physipaths can be created through the process of applying interpolated externapaths to physipaths 
   4. New potential physapaths can be created through the process of applying interpolated sensepaths to physapaths 
   5. New potential physapaths can be created through the process of applying interpolated enviropaths to physapaths 
   6. New potential physapaths can be created through the process of applying interpolated externapaths to physapaths 
   7. New potential awarepaths can be created through the process of applying interpolated sensepaths to physapaths 
   8. New potential awarepaths can be created through the process of applying interpolated enviropaths to physapaths 
   9. New potential awarepaths can be created through the process of applying interpolated externapaths to physapaths 

Extrapolation Principles:

   10. New physipaths can be created through the process of applying extrapolated sensepaths to physipaths 
   11. New physipaths can be created through the process of applying extrapolated enviropaths to physipaths 
   12. New physipaths can be created through the process of applying extrapolated externapaths to physipaths 
   13. New physapaths can be created through the process of applying extrapolated sensepaths to physapaths 
   14. New physapaths can be created through the process of applying extrapolated enviropaths to physapaths 
   15. New physapaths can be created through the process of applying extrapolated externapaths to physapaths 
   16. New awarepaths can be created through the process of applying extrapolated sensepaths to physapaths 
   17. New awarepaths can be created through the process of applying extrapolated enviropaths to physapaths 
   18. New awarepaths can be created through the process of applying extrapolated externapaths to physapaths 
      
   1. New potential physipaths can be created through the process of applying extrapolated sensepaths to physipaths 
   2. New potential physipaths can be created through the process of applying extrapolated enviropaths to physipaths 
   3. New potential physipaths can be created through the process of applying extrapolated externapaths to physipaths 
   4. New potential physapaths can be created through the process of applying extrapolated sensepaths to physapaths 
   5. New potential physapaths can be created through the process of applying extrapolated enviropaths to physapaths 
   6. New potential physapaths can be created through the process of applying extrapolated externapaths to physapaths 
   7. New potential awarepaths can be created through the process of applying extrapolated sensepaths to physapaths 
   8. New potential awarepaths can be created through the process of applying extrapolated enviropaths to physapaths 
   9. New potential awarepaths can be created through the process of applying extrapolated externapaths to physapaths 

Divergence principles

   1. There can be divergence of a physipath starting at any point along a physipath
   2. There can be divergence of a physapath starting at any point along a physapath
   3. There can be divergence of a awarepath starting at any point along a awarepath
   4. There can be divergence of a ixpepath starting at any point along a ixpepath
   5. There can be divergence of a sensepath starting at any point along a sensepath
   6. There can be divergence of a enviropath starting at any point along a enviropath
   7. There can be divergence of a externapath starting at any point along a externapath

Sensepath application to Physapath Divergence Principle: Different sensepaths can be applied to different physapaths producing divergence or differences in the resulting physapaths.

Enviropath application to Physapath Divergence Principle: Different enviropaths can be applied to different physapaths producing divergence or differences in the resulting physapaths.

Externapath application to Physapath Divergence Principle: Different externapaths can be applied to different physapaths producing divergence or differences in the resulting physapaths.

It appears that at any moment that any number of difference can occur to a person and they will experience something new buty they will still be the ones experiencing these differences. This situation can be viewed as different sensepaths being applied to the current physamoment producing varitions in the resulting physapath that you experience.

Enumerability principles:

   1. Physipath enumerability principle: There potentially exists an enumerable amount of physipaths.
   2. Physapath enumerability principle: There potentially exists an enumerable amount of physapaths.
   3. Awarepath enumerability principle: There potentially exists an enumerable amount of awarepaths.
   4. Ixpepath enumerability plicity principle: There potentially exists an enumerable amount of ixpepaths.
   5. Sensepath enumerability principle: There potentially exists an enumerable amount of sensepaths.
   6. Enviropath enumerability principle: There potentially exists an enumerable amount of enviropaths.
   7. Externapath enumerability principle: There potentially exists an enumerable amount of externapaths.

Physipath enumerability principle proof: The proof that there exists potentially many different physipaths

   1. Potential humans physipaths proof is that the set of potential humans physipaths is enumerable and it is a subset of all possible physipaths
   2. Atom replacement proof for structure one atom can be replaced from any atom in the universe at each physipoint making it a different physipoint and thus a different physipath
   3. Atom replacement proof for functioning one atom can be replaced at any point along a physipath making it a different physipaths
   4. Physapath proof there are an enumerable amount of physapaths the set of physapaths is a subset of the set of physipaths

Physapath enumerability principle proof: The proof that there exists potentially many different physapaths one proof is that the set of potential humans physipaths is enumerable

Human Physapath enumerability proof: The proof that there exists potentially many different human physapaths

Awarepath enumerability proof: The proof that there exists many different awarepaths.

   1. Awarepaths are produced by physapaths. There are an enumerable amount of physapaths, therefore there are an enumerable amount of awarepaths. A percentage of awarepaths are identical. A percentage of awarepaths are not identical. A large enough percentage of an enumerable set is still enumerable. Not all awarepaths are identical because there are many different reported conscious experiences that are reported.

Human Awarepath enumerability proof: The proof that there exists many different human awarepaths

Sensepath enumerability proof: The proof that there exists many different sensepaths

Human Sensepath enumerability proof: The proof that there exists many different human sensepaths

Enviropath effective limits proof: there are many part of the environment that are so far away and effects so week that they will not effect the physapath.

Nearly identical enviropath proof: There are many nearly identical enviropaths that will effect the physapath in the same exact way. The proof that there exists many different enviropaths that have the same effect on a physapath

Enviropath enumerability proof: The proof that there exists many different enviropaths

Human Enviropath enumerability proof: The proof that there exists many different human enviropaths

Externapath enumerability proof: The proof that there exists many different enviropaths. Since an externapaths are a combination of both sensepaths and enviropaths that are different there will be more externapaths than either sensepaths or enviropaths. Since both potential enviropaths and sensepaths are enumerable sets and externapath is a combination of both potential enviropaths and potential sensepaths, potential externapaths are also enumerable.

Human Externapath enumerability proof: The proof that there exists many different human enviropaths. Since an Human externapaths are a combination of both human sensepaths and human enviropaths that are different there will be more human externapaths than either human sensepaths or human enviropaths.