Deeper than primes

[doronshadmi]

Yes, and right from page 1, those things that are there are wrong.

Please give a detailed example.

What an interesting choice of words.

Thanks, Edited.

 

[Apathia]

Try pages 31-35.

That's going to take me two years!

 

[jsfisher]

Please give a detailed example.

You raised this nonsense before. It was demonstrated wrong then; it has the same degree of wrongness now. Even your then only ally, Moshe, admitted it was bogus.

I don't feel obligated to repeat the arguments presented and accepted back then just because you've cycled back in your errors. The search function is your friend.

 

[doronshadmi]

It was demonstrated wrong.

It only demonstrated that Moshe's formula and ON's representation were a partial case of ONs. Nothing was demonstrated as wrong about the notion of parallel/serial observation or (a) < (b) < (c).

ONs were generalized at http://www.scribd.com/doc/21967511/...considerations-of-Some-Mathematical-Paradigms but your one-id reasoning can't get it.

 

[jsfisher]

It only demonstrated that Moshe's formula and ON's representation were a partial case of ONs. Nothing was demonstrated as wrong about the notion of parallel/serial observation or (a) < (b) < (c).

ONs were generalized at http://www.scribd.com/doc/21967511/...considerations-of-Some-Mathematical-Paradigms .

And yet again, your reading comprehension skills and ability to hold a thought beyond one post have abandoned you.

The subject at hand is that your recently reference spewage in PDF form has math errors beginning on page 1. These very same errors have been trotted out by you some time ago. The errors were discussed then and exposed for what they were. Yet, now, you again trot them out, still bearing the very same errors, and you see nothing wrong with them.

Your math, starting on page 1, is now and always has been in error. You can't even get your generator formula to work properly, and that bodes poorly for the rest of your spewage in PDF.

 

[doronshadmi]

And yet again, your reading comprehension skills and ability to hold a thought beyond one post have abandoned you.

The subject at hand is that your recently reference spewage in PDF form has math errors beginning on page 1. These very same errors have been trotted out by you some time ago. The errors were discussed then and exposed for what they were. Yet, now, you again trot them out, still bearing the very same errors, and you see nothing wrong with them.

Your math, starting on page 1, is now and always has been in error. You can't even get your generator formula to work properly, and that bodes poorly for the rest of your spewage in PDF.

The generator formula in page 1 of http://www.scribd.com/doc/16542245/OMPT deals with a partial case of ONs and the article explicitly says that. Actually you are the one that showed that my ONs representation was a partial case of ONs, yet you were unable to understand that this article is not based on how many ONs forms are represented but about the notion of parallel/serial observation and Distinction as an additional property to Cardinality and Ordinality.

Furthermore, Moshe's generator formula is nothing but the serial case of ONs, but you can't get that because your reasoning is limited to a one-id reasoning ( http://www.internationalskeptics.com/forums/showpost.php?p=5927914&postcount=9791 ).

In other words, you have no meaningful thing to say about this subject, because all you get is its serial aspect by using only one-id reasoning.

EDIT:

Actually I decided to stop working with Moshe on OM's development because he was able to get it only by one-id reasoning, exactly because he learned Mathematics in the Hebrew University in Jerusalem and simply was unable to see things beyond one-id reasoning.

He truly did his best in order to find ways to communicate with other one-id reasoning's scholars in order to open their mind to OM in a step-by-step fusion.

But it simply can't be done, because form a one-id reasoning you can't get OM.

 

[jsfisher]

The generator formula deals with a partial case of ONs and the article explicitly says that. Actually you are the one that showed that my ONs representation was a partial case of ONs

I showed more than that. I showed that your original presentation was completely bogus. Why have you returned to it?

...yet you were unable to understand that this article is not based on how many ONs forms are represented but about the notion of parallel/serial observation and Distinction as an additional property to Cardinality and Ordinality.

Another error on your part. You have no basis to presume what I do and do not "understand" about basis you claim in your spewage. You may assume, as I have stated, that your spewage begins with serious mathematical errors. Since your document makes such a bad start, the credibility of anything that follows is severely disadvantaged.

Furthermore, Moshe's generator formula is nothing but the serial case of ONs, but you can't get that because your reasoning is limited to a one-id reasoning ( http://www.internationalskeptics.com/forums/showpost.php?p=5927914&postcount=9791 ).

Again, you presume to know what I do and to not understand, while completely missing the point. The generator function as published is junk. It has all the same errors you started with the first time you presented.

Most of us here know you don't seem to get anything right. Buy could you at least make things less wrong when corrections are handed to you?

In other words, you have no meaningful thing to say about this subject, because all you get is its serial aspect by using only one-id reasoning.

It is more the case that you keep changing the subject because your lack of focus and comprehension denies you basic abilities needed to maintain a dialogue.

 

[doronshadmi]

I showed more than that. I showed that your original presentation was completely bogus. Why have you returned to it?

You showed that it is a partial case on ON's, that's all.

You may assume, as I have stated, that your spewage begins with serious mathematical errors. Since your document makes such a bad start, the credibility of anything that follows is severely disadvantaged.

It was a minor error that has no impact on the main subject of that article, which deals with more than one-id reasoning.

Again, you presume to know what I do and to not understand, while completely missing the point. The generator function as published is junk. It has all the same errors you started with the first time you presented.

You completely miss the fact that this function generator is a partial case under one-id reasoning, and therefore has no meaningful impact on that article.

Most of us here know you don't seem to get anything right. Buy could you at least make things less wrong when corrections are handed to you?

Moshe has another generator that defines the amount of ONs that is based on your correction, but again, this is nothing but a minor subject of this article, that, again, has a minor impact on that article. You can't change the fact that you get this article only from a one-id reasoning, which is nothing but a particular case of it that was corrected by Moshe. I'll ask Moshe to give his new version of the formula, but again, it is nothing but a minor case of this article, which is a fact that you can't get because of your inability to get things that are not based on one-id reasoning.

It is more the case that you keep changing the subject because your lack of focus and comprehension denies you basic abilities needed to maintain a dialogue.

It is exactly the case that you get things only by one-id reasoning, and as a result can't get that article.

Again, Moshe truly did his best in order to find ways to communicate with other one-id reasoning's scholars in order to open their mind to OM in a step-by-step fusion.

But it simply can't be done, because form a one-id reasoning you can't get OM and you jsfisher unable to see things beyond one-id reasoning, exactly as Moshe can't.

The limitation of one-id reasoning is shown in http://www.internationalskeptics.com/forums/showpost.php?p=5927914&postcount=9791.

 

[jsfisher]

You showed that it is a partial case on ON's, that's all.

Your recollection is way faulty. It was only after you fixed come of the mistakes that were pointed out to you that we could get to the observation that "organic numbers" were nothing like you and Moshe claimed them to be.

You have restored all the original mistakes and started over.

It was a minor error that has no impact on the main subject of that article, which deals with more than one-id reasoning.

There are several outright blunders.

You completely miss the fact that this function generator is a partial case under one-id reasoning, and therefore has no meaningful impact on that article.

No, you continue to completely miss the fact your generator is complete rubbish and doesn't work at all. At one point in the past it was less blunderous, to coin a word, but I see you have restored it all to its original ridiculous self.

Moshe has another generator that defines the amount of ONs that is based on your correction, but again, this is nothing but a minor subject of this article, that, again, has a minor impact on that article.

You continue to evade the point. Your math is erroneous. Not just bothered by a minor defect, but thunderously wrong. That makes it a major subject of the article. Doron gets what should have been some simple formulations completely wrong on page 1. Oh, look, it continues onto page 2.

If you start so very, very wrong, why should anyone read any further?

You can't change the fact that you get this article only from a one-id reasoning, which is nothing but a particular case of it that was corrected by Moshe.

You keep assuming things that aren't true. Do you do this for any reason other than evasion?

I'll ask Moshe to give his new version of the formula, but again, it is nothing but a minor case of this article

You are right. That are more than enough blunders elsewhere in the paper. Why spend any time fixing page 1.

...which is a fact that you can't get because of your inability to get things that are not based on one-id reasoning.

It is exactly the case that you get things only by one-id reasoning, and as a result can't get that article.

Again, Moshe truly did his best in order to find ways to communicate with other one-id reasoning's scholars in order to open their mind to OM in a step-by-step fusion.

But it simply can't be done, because form a one-id reasoning you can't get OM and you jsfisher unable to see things beyond one-id reasoning, exactly as Moshe can't.

The limitation of one-id reasoning is shown in http://www.internationalskeptics.com/forums/showpost.php?p=5927914&postcount=9791.

So you continue to assume, but without any evidence, just your bare assertions...and we already know you do tend to lie a lot.

Your mistakes, on the other hand, are well documented.

 

[The Man]

You still do not understand that you are using a one-id reasoning, where A has simultaneously one and only one id, called True, False or whatever.

A non-one-id reasoning deals with the simultaneity of being more than a one id, which is a contradiction only if it is understood in terms of a one-id reasoning.

No Doron again it is a contradiction because one “id” you gave “A” contradicts the other “id” you gave “NOT A”. Two “id”s and still a contradiction simply because those two “id”s are, well, contradictory.

Both one-id and non-one-id reasonings are derived form that has no id, which is the "transparent" base ground that enables the full expression of any given "color", where a "color" can be a one-id reasoning or a non-one-id reasoning, in this case.

You may claim: one-id reasoning AND non-one-id reasoning, is a contradiction (always False in your language).

By doing that you are simply using a one-id reasoning in order to conclude something about
one-id reasoning AND non-one-id reasoning, and get a contradiction (always False in your language), which is a must have result of a one-id reasoning, where A has simultaneously one and only one id, called True, False or whatever.

By taking a one-id reasoning as the one and only one valid reasoning, you simply miss the non-one-id reasoning and the base ground of any reasoning that has no id.

Your “direct perception” has failed you again as the contradiction specifically results from more than one “id”.

 

[doronshadmi]

Let us try to change the attitude of this discussion.

Jsfisher, The Man, ddt and Skeptic I need your help in order to define the general formula which returns the number of the elements of the following mathematical structure:

First, some definitions:

x is an element.

Definition 1: Identity is a property of x, which allows its recognition.

Definition 2: Copy is a duplication of a single identity.

Definition 3: If x has more than one single identity, then x is called Uncertain.

Definition 4: If x has more than one single copy, then x is called Redundant.

k = 0 to n, where n is a natural number.

----------------------------------------------

The considered mathematical structure is k-Uncertainty x k-Redundancy tree, where its Y-axis is used in order to measure the Uncertainty of its elements, and its X-axis is used in order to measure the Redundancy of its elements.

For example, the 2-Uncertainty x 2-Redundancy tree is:

2x2

(AB,AB) (AB,A)  (AB,B)  (AB)    (A,A)   (B,B)   (A,B)   (A)     (B)     ()

A * *   A * *   A * .   A * .   A * *   A . .   A * .   A * .   A . .   A . .
  | |     | |     | |     | |     | |     | |     | |     | |     | |     | |
B *_*   B *_.   B *_*   B *_.   B ._.   B *_*   B ._*   B ._.   B *_.   B ._.

(2,2) = (AB,AB)
(2,1) = (AB,A),(AB,B)
(2,0) = (AB)
(1,1) = (A,A),(B,B),(A,B)
(1,0) = (A),(B)
(0,0) = ()

Any appearance of that tree is called Distinction State (DS), where any DS is under a structure called Frame (F), for example: (AB,B) is a DS that is under (2,1) F.

The order in each DS or F has no significance (similar to {a,b}={b,a}) but any DS is the basis of any possible order (similar to the concept of Set as being the basis of permutations).



Here are the detailed examples of k=0 to 3:

0x0

(0)=()



1x1                                        
                                           
A * .                                        
                                           
(1) = (A)
(0) = ()

                                          
                                 
2X2

(AB,AB) (AB,A)  (AB,B)  (AB)    (A,A)   (B,B)   (A,B)   (A)     (B)     ()

A * *   A * *   A * .   A * .   A * *   A . .   A * .   A * .   A . .   A . .
  | |     | |     | |     | |     | |     | |     | |     | |     | |     | |
B *_*   B *_.   B *_*   B *_.   B ._.   B *_*   B ._*   B ._.   B *_.   B ._.

(2,2) = (AB,AB)
(2,1) = (AB,A),(AB,B)
(2,0) = (AB)
(1,1) = (A,A),(B,B),(A,B)
(1,0) = (A),(B)
(0,0) = ()



3X3                                              
                                                 
A . . .                                          
  | | |                                          
B . . .                                          
  | | |                                          
C ._._.                                          
                                                 
(3,3,3) = (ABC,ABC,ABC)                          
(3,3,2) = (ABC,ABC,AB),(ABC,ABC,AC),(ABC,ABC,BC) 
(3,3,1) = (ABC,ABC,A),(ABC,ABC,B),(ABC,ABC,C)
(3,3,0) = (ABC,ABC)    
(3,2,2) =
(ABC,AB,AB),(ABC,AB,AC),(ABC,AB,BC)                 
(ABC,AC,AC),(ABC,BC,BC)                 
(3,2,1) =                                        
(ABC,AB,A),(ABC,AB,B),(ABC,AB,C)                 
(ABC,AC,A),(ABC,AC,B),(ABC,AC,C)                 
(ABC,BC,A),(ABC,BC,B),(ABC,BC,C) 
(3,2,0) = (ABC,AB),(ABC,AC),(ABC,BC)                
(2,2,2) =                                        
(AB,AB,AB),(AB,AC,AB),(AB,BC,AB)                 
(AC,AC,AC),(AC,AB,AC),(AC,BC,AC)                 
(BC,BC,BC),(BC,AB,BC),(BC,AC,BC)                 
(2,2,1) =                                        
(AB,AB,A),(AB,AB,B),(AB,AB,C)                    
(AB,AC,A),(AB,AC,B),(AB,AC,C)                    
(AB,BC,A),(AB,BC,B),(AB,BC,C)
(2,2,0) = (AB,AB),(AB,AC),(BC,BC)                    
(1,1,3) =                                        
(A,A,ABC),(B,B,ABC),(A,B,ABC)                    
(A,C,ABC),(B,C,ABC)
(3,1,0) = (ABC,A),(ABC,B),(ABC,C)
(3,0,0) = (ABC)                              
(1,1,2) =                                        
(A,A,AB),(A,A,AC),(A,A,BC)                       
(B,B,AB),(B,B,AC),(B,B,BC)                       
(A,B,AB),(A,B,AC),(A,B,BC)                       
(A,C,AB),(A,C,AC),(A,C,BC)                       
(B,C,AB),(B,C,AC),(B,C,BC)                       
(2,1,0) = (AB,A),(AB,B),(AB,C),(AC,A),(AC,B),(AC,C),(BC,A),(BC,B),(BC,C)
(2,0,0) = (AB),(AC),(BC)
(1,1,1) = 
(A,A,A),(B,B,B),(C,C,C)
(A,A,B),(A,A,C),(B,B,A)
(B,B,C),(C,C,A),(C,C,B),(A,B,C)
(1,1,0) = (A,A),(B,B),(C,C),(A,B),(A,C),(C,B)
(1,0,0) = (A),(B),(C)
(0,0,0) = ()

Maybe I have missed something in 3x3 , so a general formula of k=0 to n (where n is some natural number) actually points out that more cases must be defined in a given k-Uncertainty x k-Redundancy tree.

 

[Apathia]

Let us try to change the attitude of this discussion.

Jsfisher, The Man, ddt and Skeptic I need your help in order to define the general formula which returns the number of the elements of the following mathematical structure:

First, some definitions:

x is an element.

Definition 1: Identity is a property of x, which allows its recognition.

Definition 2: Copy is a duplication of a single identity.

Definition 3: If x has more than one single identity, then x is called Uncertain.

Definition 4: If x has more than one single copy, then x is called Redundant.

k = 0 to n, where n is a natural number.

Good place to start for me, because I have some dumb questions.
(I'll let the mathematicians answer if the above can be numerically represented without losing the "parallel" meanings to the "serial." As happened in the M.K. debacle.)

Looking at my desk now I see it has a number of distinct and unique items upon it. None are "copies" of others. All have singular individual identities and are singular elements of some class of objects.
A partial list:
1. Computer monitor (soon to be replaced by a flat screen thanks to a salery raise!)
2. Computer keyboard
3. My reading glasses
4. Mouse
5. Mouse pad
6. Pen
7. Lamp
8. a decorative sphere of malachite
9. Pill bottle of ibuprophen tablets
10. Key chain black cat (press the button and its eyes light up and it says "meow."
11. Whole toenail from left big toe. (One of those weird things that happens with aging)
12. Address book

But look, in the process of listing them I've done a count.
12 items.
Of course I could have gone on to list the paper clip, eraser, and so on.
But I did do a collection of twelve items.

What's this in regard to the "Copy"/"Identity" matrix, since none are copies?

 

[The Man]

Let us try to change the attitude of this discussion.

Jsfisher, The Man, ddt and Skeptic I need your help in order to define the general formula which returns the number of the elements of the following mathematical structure:

First, some definitions:

x is an element.

Definition 1: Identity is a property of x, which allows its recognition.

Definition 2: Copy is a duplication of a single identity.

Definition 3: If x has more than one single identity, then x is called Uncertain.

Definition 4: If x has more than one single copy, then x is called Redundant.

k = 0 to n, where n is a natural number.

----------------------------------------------

Let’s try to be more clear about your definitions first and their applications.

Definition 1: Identity is a property of x, which allows its recognition.

x=A is different “Identity” than x=B, correct?

Would x=AB be a different “Identity” than x=A or x=B? Would it be a union of those two 'identities'?

Would x=AA be different than x=A?

Again a variable can take on multiple values where x₁ might be A and x₂ might be B. The set X₁ of those two values for x would be (A,B) not (AB). If x₃ might be AA and x₄ might be AB then the set X₂ of those four values for x (x₁,x₂,x₃,x₄) would be (A,B,AA,AB).

Definition 2: Copy is a duplication of a single identity.

x=AA would be a “duplication of a single identity”, but your examples seem to indicate that what you are referring to is x=A thus (x,x) meaning (A,A) is “duplication of a single identity”. So your “duplication of a single identity” refers only to duplication within the set and not duplication within the element, correct?


Also this goes back to your “Definition 1” if x=AB is a different “id” then x=A or x=B thus (AB,A,B) would have no “duplication of a single identity”. If your are considering duplication within and between the elements then x=AA would have duplication as would (AA,A) and (AB,A,B)

Definition 3: If x has more than one single identity, then x is called Uncertain.

Again a variable represents “more than one single identity” with one identity, “x” in this case. It is by that very ascription “Uncertain” to, well, variable degrees. For the set of all values or ‘single identities’ of x as set X₁ as (A,B) given before the maximum value of “n” in X_n might be considered a measure of its 'uncertainty'. Making the set of all values or ‘single identities’ of x in set X₂ as (A,B,AA,AB) (also given before) twice as ‘uncertain’ as just (A,B) set X₁ . If one were to assert that Q represents set X₁ as (A,B) and W represents X₃ as (AA,AB) with QW representing the union of those two sets, X₂ as (A,B,AA,AB), then W would be as ‘uncertain’ as Q and QW would be twice as ‘uncertain’ as Q or W, again by the maximum “n” value in x_n.

Definition 4: If x has more than one single copy, then x is called Redundant.

Your “Definition 1:” and “Definition 2:” are for too vague as indicated above to determine any specific ‘Redundancy’.

 

[doronshadmi]

x=A is different “Identity” than x=B, correct?

Would x=AB be a different “Identity” than x=A or x=B? Would it be a union of those two 'identities'?

Would x=AA be different than x=A?

Excellent questions, let us improve it.


EDIT:

----------------------------------------------

x is an element.

Definition 1: Identity is a property of x, which allows its recognition.

For example x=A , x=B

Definition 2: If x has more than a single identity, then x is called Uncertain.

For example x=AB

Definition 3: Redundancy is a duplication of single or uncertain identities, in a given collection.

For example (A,A) , (B,B) , (AB,AB)

k = 0 to n, where n is a natural number.

----------------------------------------------

The considered mathematical structure is k-Uncertainty x k-Redundancy tree, where its Y-axis (a given branch of the given tree) is used in order to measure the Uncertainty of its elements, and its X-axis (of the given tree) is used in order to measure the Redundancy of its elements.


Please look at the structure of 2-Unertanty x 2-Reduncancy tree:

2X2

(AB,AB) (AB,A)  (AB,B)  (AB)    (A,A)   (B,B)   (A,B)   (A)     (B)     ()

A * *   A * *   A * .   A * .   A * *   A . .   A * .   A * .   A . .   A . .
  | |     | |     | |     | |     | |     | |     | |     | |     | |     | |
B *_*   B *_.   B *_*   B *_.   B ._.   B *_*   B ._*   B ._.   B *_.   B ._.

(2,2) = (AB,AB)
(2,1) = (AB,A),(AB,B)
(2,0) = (AB)
(1,1) = (A,A),(B,B),(A,B)
(1,0) = (A),(B)
(0,0) = ()

As you see Uncertainty is at the level of the element (a given branch of the given tree), where Redundancy is at the level of the collection (the given tree).

Any appearance of that tree is called Distinction State (DS), where any DS is under a structure called Frame (F), for example: (AB,B) is a DS that is under (2,1) F.

The order in each DS or F has no significance (similar to {a,b}={b,a}) but any DS is the basis of any possible order (similar to the concept of Set as being the basis of permutations).



Here are the detailed examples of k=0 to 3:

0x0

(0)=()



1x1                                        
                                           
A * .                                        
                                           
(1) = (A)
(0) = ()

                                          
                                 
2X2

(AB,AB) (AB,A)  (AB,B)  (AB)    (A,A)   (B,B)   (A,B)   (A)     (B)     ()

A * *   A * *   A * .   A * .   A * *   A . .   A * .   A * .   A . .   A . .
  | |     | |     | |     | |     | |     | |     | |     | |     | |     | |
B *_*   B *_.   B *_*   B *_.   B ._.   B *_*   B ._*   B ._.   B *_.   B ._.

(2,2) = (AB,AB)
(2,1) = (AB,A),(AB,B)
(2,0) = (AB)
(1,1) = (A,A),(B,B),(A,B)
(1,0) = (A),(B)
(0,0) = ()



3X3                                              
                                                 
A . . .                                          
  | | |                                          
B . . .                                          
  | | |                                          
C ._._.                                          
                                                 
(3,3,3) = (ABC,ABC,ABC)                          
(3,3,2) = (ABC,ABC,AB),(ABC,ABC,AC),(ABC,ABC,BC) 
(3,3,1) = (ABC,ABC,A),(ABC,ABC,B),(ABC,ABC,C)
(3,3,0) = (ABC,ABC)    
(3,2,2) =
(ABC,AB,AB),(ABC,AB,AC),(ABC,AB,BC)                 
(ABC,AC,AC),(ABC,BC,BC)                 
(3,2,1) =                                        
(ABC,AB,A),(ABC,AB,B),(ABC,AB,C)                 
(ABC,AC,A),(ABC,AC,B),(ABC,AC,C)                 
(ABC,BC,A),(ABC,BC,B),(ABC,BC,C) 
(3,2,0) = (ABC,AB),(ABC,AC),(ABC,BC)                
(2,2,2) =                                        
(AB,AB,AB),(AB,AC,AB),(AB,BC,AB)                 
(AC,AC,AC),(AC,AB,AC),(AC,BC,AC)                 
(BC,BC,BC),(BC,AB,BC),(BC,AC,BC)                 
(2,2,1) =                                        
(AB,AB,A),(AB,AB,B),(AB,AB,C)                    
(AB,AC,A),(AB,AC,B),(AB,AC,C)                    
(AB,BC,A),(AB,BC,B),(AB,BC,C)
(2,2,0) = (AB,AB),(AB,AC),(BC,BC)                    
(1,1,3) =                                        
(A,A,ABC),(B,B,ABC),(A,B,ABC)                    
(A,C,ABC),(B,C,ABC)
(3,1,0) = (ABC,A),(ABC,B),(ABC,C)
(3,0,0) = (ABC)                              
(1,1,2) =                                        
(A,A,AB),(A,A,AC),(A,A,BC)                       
(B,B,AB),(B,B,AC),(B,B,BC)                       
(A,B,AB),(A,B,AC),(A,B,BC)                       
(A,C,AB),(A,C,AC),(A,C,BC)                       
(B,C,AB),(B,C,AC),(B,C,BC)                       
(2,1,0) = (AB,A),(AB,B),(AB,C),(AC,A),(AC,B),(AC,C),(BC,A),(BC,B),(BC,C)
(2,0,0) = (AB),(AC),(BC)
(1,1,1) = 
(A,A,A),(B,B,B),(C,C,C)
(A,A,B),(A,A,C),(B,B,A)
(B,B,C),(C,C,A),(C,C,B),(A,B,C)
(1,1,0) = (A,A),(B,B),(C,C),(A,B),(A,C),(C,B)
(1,0,0) = (A),(B),(C)
(0,0,0) = ()

Maybe I have missed something in 3x3 , so a general formula of k=0 to n (where n is some natural number) actually points out that more cases must be defined in a given k-Uncertainty x k-Redundancy tree.

 

[jsfisher]

Jsfisher, The Man, ddt and Skeptic I need your help in order to define the general formula which returns the number of the elements of the following mathematical structure:

First, some definitions:

x is an element.

Definition 1: Identity is a property of x, which allows its recognition.

In what way is the term, property, different from your invented term, identity? The "which allows its recognition" is superfluous. Are you just continuing a practice of new terms for old without adding any new content?

Definition 2: Copy is a duplication of a single identity.

What are you trying to accomplish with this definition? Cardinality, for example, is a property of any set. Given two sets, both of which must have a cardinality property. Is one of them a copy of the other?

Definition 3: If x has more than one single identity, then x is called Uncertain.

What are you trying to accomplish with this definition. Everything has more than one property. How is the set {1,3} "uncertain" just because it has both cardinality and members?

Definition 4: If x has more than one single copy, then x is called Redundant.

I think you are focused more on creating names than meaning.

 

[Apathia]

Doron,

I hope I've got it clear now that a quantity arises from the linkage of Locality and Non-Locality, or in the current context: the bridging of "Uncertainty" and "Redundancy."

Items in "Parallel" are not yet counted in quantity. With bridging there is "Seriality" and a quantity.

What are numbers that aren't quantities?
I see in your required reading that somtimes you describe serial quantities as "cardinal," while the numbers in the merely Local, or "parallel" sense are called "ordinal."

But then you make the point that "order doesn't matter."
This, of course, smashes the definition of ordinality to pieces. Not that that bothers you any, but it smashes communication with others as well.
Especially mathematicians.
(I don't mind so much, because I failed Calculus and retreated to the Humanities and literature where ambiguity is welcome.)

But as I've suggested before, I think you mean number in the Nominal sense.
I'll give an old example again:
Secundus and Tertius.
These are Roman male names. They usually signified order of birth. (Ordinality, you see.)
But they are also names of individuals. And as names, you can line of Tertius and Sucundus in any order you please and they are still "parallel."

Nevertheless, whether you use the term "ordinal' or the term "nominal," something always gets lost in your translation to mathematical notation.
Those "( )" "[ ]" or "{ }" fail to distinguish the sense (cardinal, ordinal , or nominal) a number is in.

Any forumula that couldn't somehow indicate shifts and transformations between and to the different senses of number, would naturally be misunderstood by any mathematician.
You saw that happen with Moshe's contribution.
All numbers seen in the presentation were taken as serial quantities.

Mathmatical forumlas (as far as I know) all deal with quantities and cardinality (as math defines it).

Have you a formulary that can make clear the different senses of number in the recipe?

Or is this simple to show that full quanity may not always be clear?
or that 3rd + 2nd = 2?

 

[Apathia]

As you see Uncertainty is at the level of the element, where Redundancy is at the level of the collection.

I get that.
How do you indicate in a formula when a number is at the element level or when it is at the collection level?

 

[doronshadmi]

In what way is the term, property, different from your invented term, identity? The "which allows its recognition" is superfluous. Are you just continuing a practice of new terms for old without adding any new content?



What are you trying to accomplish with this definition? Cardinality, for example, is a property of any set. Given two sets, both of which must have a cardinality property. Is one of them a copy of the other?



What are you trying to accomplish with this definition. Everything has more than one property. How is the set {1,3} "uncertain" just because it has both cardinality and members?



I think you are focused more on creating names than meaning.

Please see http://www.internationalskeptics.com/forums/showpost.php?p=5932683&postcount=9814 .

 

[doronshadmi]

Items in "Parallel" are not yet counted in quantity. With bridging there is "Seriality" and a quantity.

Items in "Parallel" have cardinality is we deal with finite size, but the identity of each element is uncertain.

But then you make the point that "order doesn't matter."
This, of course, smashes the definition of ordinality to pieces. Not that that bothers you any, but it smashes communication with others as well.
Especially mathematicians.

Not at all. {a,b}={b,a} and it is accepted by mathematicians.

 

[doronshadmi]

I get that.
How do you indicate in a formula when a number is at the element level or when it is at the collection level?

The considered mathematical structure is k-Uncertainty x k-Redundancy tree, where its Y-axis (a given branch of the given tree) is used in order to measure the Uncertainty of its elements, and its X-axis (of the given tree) is used in order to measure the Redundancy of its elements.