Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)

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Sujet : Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)
De : polcott333 (at) *nospam* gmail.com (olcott)
Groupes : sci.logic comp.theory
Date : 27. May 2024, 15:15:57
Autres entêtes
Organisation : A noiseless patient Spider
Message-ID : <v324iu$2pkb$1@dont-email.me>
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User-Agent : Mozilla Thunderbird
On 5/27/2024 3:00 AM, Mikko wrote:
On 2024-05-26 13:52:17 +0000, olcott said:
 
On 5/26/2024 3:38 AM, Mikko wrote:
On 2024-05-25 18:13:02 +0000, olcott said:
>
On 5/25/2024 3:01 AM, Mikko wrote:
On 2024-05-24 19:16:47 +0000, olcott said:
>
On 5/24/2024 3:18 AM, Mikko wrote:
On 2024-05-23 13:32:51 +0000, olcott said:
>
On 5/23/2024 3:09 AM, Mikko wrote:
On 2024-05-23 01:03:44 +0000, Richard Damon said:
>
On 5/22/24 7:55 PM, olcott wrote:
On 5/22/2024 6:01 PM, Richard Damon wrote:
On 5/22/24 3:52 PM, olcott wrote:
On 5/22/2024 11:58 AM, Mikko wrote:
On 2024-05-22 15:55:39 +0000, olcott said:
>
On 5/22/2024 2:57 AM, Mikko wrote:
On 2024-05-21 14:36:29 +0000, olcott said:
>
On 5/21/2024 3:05 AM, Mikko wrote:
On 2024-05-20 17:48:40 +0000, olcott said:
>
On 5/20/2024 2:55 AM, Mikko wrote:
On 2024-05-19 14:15:51 +0000, olcott said:
>
On 5/19/2024 9:03 AM, Mikko wrote:
On 2024-05-19 13:41:56 +0000, olcott said:
>
On 5/19/2024 6:55 AM, Richard Damon wrote:
On 5/18/24 11:47 PM, olcott wrote:
On 5/18/2024 6:04 PM, Richard Damon wrote:
On 5/18/24 6:47 PM, olcott wrote:
On 5/18/2024 5:22 PM, Richard Damon wrote:
On 5/18/24 4:00 PM, olcott wrote:
On 5/18/2024 2:57 PM, Richard Damon wrote:
On 5/18/24 3:46 PM, olcott wrote:
On 5/18/2024 12:38 PM, Richard Damon wrote:
On 5/18/24 1:26 PM, olcott wrote:
On 5/18/2024 11:56 AM, Richard Damon wrote:
On 5/18/24 12:48 PM, olcott wrote:
On 5/18/2024 9:32 AM, Richard Damon wrote:
On 5/18/24 10:15 AM, olcott wrote:
On 5/18/2024 7:43 AM, Richard Damon wrote:
No, your system contradicts itself.
>
>
You have never shown this.
The most you have shown is a lack of understanding of the
Truth Teller Paradox.
>
No, I have, but you don't understand the proof, it seems because you don't know what a "Truth Predicate" has been defined to be.
>
>
My True(L,x) predicate is defined to return true or false for every
finite string x on the basis of the existence of a sequence of truth
preserving operations that derive x from
>
And thus, When True(L, p) established a sequence of truth preserving operations eminationg from ~True(L, p) by returning false, it contradicts itself. The problem is that True, in making an answer of false, has asserted that such a sequence exists.
>
On 5/13/2024 9:31 PM, Richard Damon wrote:
 > On 5/13/24 10:03 PM, olcott wrote:
 >> On 5/13/2024 7:29 PM, Richard Damon wrote:
 >>>
 >>> Remember, p defined as ~True(L, p) ...
 >>
 >> Can a sequence of true preserving operations applied
 >> to expressions that are stipulated to be true derive p?
 > No, so True(L, p) is false
 >>
 >> Can a sequence of true preserving operations applied
 >> to expressions that are stipulated to be true derive ~p?
 >
 > No, so False(L, p) is false,
 >
>
*To help you concentrate I repeated this*
The Liar Paradox and your formalized Liar Paradox both
contradict themselves that is why they must be screened
out as type mismatch error non-truth-bearers *BEFORE THAT OCCURS*
>
And the Truth Predicate isn't allowed to "filter" out expressions.
>
>
YOU ALREADY KNOW THAT IT DOESN'T
WE HAVE BEEN OVER THIS AGAIN AND AGAIN
THE FORMAL SYSTEM USES THE TRUE AND FALSE PREDICATE
TO FILTER OUT TYPE MISMATCH ERROR
>
The first thing that the formal system does with any
arbitrary finite string input is see if it is a Truth-bearer:
Truthbearer(L,x) ≡ (True(L,x) ∨ True(L,~x))
>
No, we can ask True(L, x) for any expression x and get an answer.
>
>
The system is designed so you can ask this, yet non-truth-bearers
are rejected before True(L, x) is allowed to be called.
>
>
>
>
Not allowed.
>
>
My True(L,x) predicate is defined to return true or false for every
finite string x on the basis of the existence of a sequence of truth
preserving operations that derive x from
>
A set of finite string semantic meanings that form an accurate
verbal model of the general knowledge of the actual world that
form a finite set of finite strings that are stipulated to have
the semantic value of Boolean true.
>
*This is computable* Truthbearer(L,x) ≡ (True(L,x) ∨ True(L,~x))
*This is computable* Truthbearer(L,x) ≡ (True(L,x) ∨ True(L,~x))
*This is computable* Truthbearer(L,x) ≡ (True(L,x) ∨ True(L,~x))
*This is computable* Truthbearer(L,x) ≡ (True(L,x) ∨ True(L,~x))
*This is computable* Truthbearer(L,x) ≡ (True(L,x) ∨ True(L,~x))
>
>
>
So, for a statement x to be false, it says that there must be a sequence of truth perserving operations that derive ~x from, right?
>
Yes we must build from mutual agreement, good.
>
So do you still say that for p defined in L as ~True(L, p) that your definition will say that True(L, p) will return false?
>
>
It is the perfectly isomorphic to this:
True(English, "This sentence is not true")
>
>
>
Nope, Because "This sentece is not true" can be a non-truth-bearer, but by its definition, True(L, x) can not.
>
>
True(L,x) is always a truth bearer.
when x is defined as True(L,x) then x is not a truth bearer.
>
When x is defined as True(L,x) then x is what True(L,x) is,
in this case a truth bearer.
>
This is known as the Truth Teller Paradox
>
Doesn't matter. But ir you say that "x is not a truth bearer" then,
by a truth preserving transformation, you imply that True(L,x) is
>
True(English, "a cat is an animal) is true
LP := ~True(L, LP) expands to ~True(~True(~True(~True(...))))
>
No, it doesn't. It is a syntax error to have the same symbol on
both sides ":=" so the expansion is not justified.
>
ϕ(x) there is a sentence ψ such that S ⊢ ψ ↔ ϕ⟨ψ⟩.
*The sentence ψ is of course not self-referential in a strict sense*,
but mathematically it behaves like one.
https://plato.stanford.edu/entries/self-reference/#ConSemPar
>
Your quote omitted important details. One is that the claim is not
true about every theory but is about first order arithmetic and its
extension. Another one is that ϕ(x) is that the claim is about
every formula ϕ(x).
>
>
*The whole article is about self-reference*
The ONLY detail that I am referring to is that it is conventional to formalize self-reference incorrectly.
>
*Richard and both fixed that*
>
On 5/13/2024 9:31 PM, Richard Damon wrote:
 > On 5/13/24 10:03 PM, olcott wrote:
 >> On 5/13/2024 7:29 PM, Richard Damon wrote:
 >>>
 >>> Remember, p defined as ~True(L, p) ...
>
x := y means x is defined to be another name for y
>
Another name for the meaning of y. Therefore any pair of sentences that
are otherwise equal but one contains x where rhe other contains y is a pair
of equally true sentences. For example, if p defined as ~True(L, ⟨p⟩)
>
I have no idea what you mean by the weird ⟨p⟩ quotes.
I AM ABSOLUTELY NOT TALKING ABOUT ANY FREAKING Gödel NUMBERS
I AM ABSOLUTELY NOT TALKING ABOUT ANY FREAKING Gödel NUMBERS
I AM ABSOLUTELY NOT TALKING ABOUT ANY FREAKING Gödel NUMBERS
>
I AM TALKING ABOUT THE EXISTENCE OR NON-EXISTENCE OF
AN ACTUAL SEQUENCE OF TRUTH PRESERVING OPERATIONS FROM
EXPRESSIONS OF LANGUAGE KNOWN TO BE TRUE
>
So, you aren't talking about Tarski's proof of the impossibility to define a Truth Predicate per his definition?
>
>
then Truthbearer(L,p) has the same truth value as Truthbearer(L,~True(L, ⟨p⟩)).
>
>
When p defined as ~True(L, p)
Then ~True(L, p) is true, thus a truth-bearer.
>
Which means that True(L, p) is false, so your True just erred in describing a true statement as false.
>
Remeber, you just said that ~True(L, p) which has been given the name of p IS a truth-bearer.
>
>
*You are just not paying close enough attention again*
>
When p defined as ~True(L, p)
 True(L,p)  is false
 True(L,~p) is false
~True(L,~p) is true
>
x := y means x is defined to be another name for y
https://en.wikipedia.org/wiki/List_of_logic_symbols
>
Right, so since p is DEFINED to be ~True(L, p), which since True(L, p) is false, must be true, that means that you are claiming that
T(L, <a statement that has been shown to be true>) is false.
>
Thus your True predicat is just broken.
>
>
You ignored the part where Mikko agreed that
 p defined as ~True(L, p)
is a syntax error:
>
So, what it the "Syntax Error"?
>
Are we not allowed to negate an expression
>
Or are we not allowed to assign an expression to a name.
>
Note, "Syntax Error", by its definition doesn't look at Semantics,
>
>
On 5/21/2024 3:05 AM, Mikko wrote:
On 2024-05-20 17:48:40 +0000, olcott said:
True(English, "a cat is an animal) is true
LP := ~True(L, LP) expands to ~True(~True(~True(~True(...))))
>
No, it doesn't. It is a syntax error to have the same symbol on
both sides ":=" so the expansion is not justified.
>
But it isn't.
>
By the usual rules a definition of a symbol in terms of itself is not
an acceptable definition.
>
>
One can either reject it as a syntax error or let it go ahead
and infinitely expand and reject it as a semantic error.
>
It is a syntax error by the usual rules. If you want to use a different
syntax then you should specify one, preferably using a different symbol
instead of ":=". It is OK to extend the syntax but one should avoid any
conflict with the usual conventions. Also, if you change the syntax
rules you should not call it a "definition".
>
>
LP := ~True(L, LP) is required to refer to itself on both sides
that is what actual self-reference means.
>
*THE ACTUAL Stanford ARTICLE ON SELF-REFERENCE SAYS*
*THAT THEY MAKE SURE TO ENCODE IS INCORRECTLY*
ϕ(x) there is a sentence ψ such that S ⊢ ψ ↔ ϕ⟨ψ⟩.
*The sentence ψ is of course not self-referential in a strict sense*,
but mathematically it behaves like one.
https://plato.stanford.edu/entries/self-reference/#ConSemPar
>
It is the standard convention throughout the literature to encode
self-reference incorrectly. When the standard convention is to do
these things incorrectly then the standard convention must be
superseded and replaced.
>
That is one of the reasons what correctly analyzing these this is
so difficult.
>
If you are correct that this is incorrect syntax
LP := ~True(L, LP)
that is yet another reason to reject the Liar Paradox
(and every other self-reference paradox) as ill-formed.
>
Or one can reject is as a self-contradictory epistemological antinomy
having no truth value thus a type mismatch error for any formal
system of bivalent logic.
>
If that can be formulated as a syntax rule. Being an epistemological
antinomy is semantics as is being true or false but type mismach can
be handled as syntax error if the syntax rules have a type system.
>
>
The formalized Liar Paradox
LP := ~True(L, LP) <is> an epistemological antinomy because assuming
that it is true makes it false and assuming that it is false makes it
true.
>
That you want to also call it a syntax error seems reasonable to me.
>
If it is not rejected as a syntax error then it does recursively
expand ~True(~True(~True(~True(~True(...))))) as Clocksin & Mellish
point out.
>
BEGIN:(Clocksin & Mellish 2003:254)
   equal(X, X).
   ?- equal(foo(Y), Y).
>
   that is, they will allow you to match a term against an uninstantiated
   subterm of itself. In this example, foo(Y) is matched against Y, which
   appears within it. As a result, Y will stand for foo(Y), which is
   foo(foo(Y)) (because of what Y stands for), which is foo(foo(foo(Y))),
   and so on. So Y ends up standing for some kind of infinite structure.
END:(Clocksin & Mellish 2003:254)
>
>
Most of the greatest experts in the field are not even sure
that there is anything wrong with it.
>
Nothing is inherently wrong in an uninterpreted formal system.
Something may be unsuitable for some purpose but still useful
for another purpose.
>
>
You already said that this is a syntax error:
LP := ~True(L, LP)
please at least be consistent with yourself.
>
I don't. Because of a syntax error "LP := ~True(L, LP)" is not an
expression in the formal system and not in contradiction that there
is nothing wrong in the formal system.
>
>
This is where Tarski says that his proof is anchored in the Liar Paradox
https://liarparadox.org/Tarski_247_248.pdf
>
Nothing to that page contradicts anything I have said above.
>
When you look at my new thread (and completely understand what it says)
You will see when we correctly formalize Tarski's clumsy formalization
of the Liar Paradox
>
You don't formalize it correctly with a string that is not in the
language of the formnal system. A syntax error excludes all meaning
and in prticular the meaning that Tarksi's expressions have.
>
>
Back in 2019 I created a formal system for this purpose:
https://www.researchgate.net/publication/331859461_Minimal_Type_Theory_YACC_BNF
>
Initially it took any MTT expression and output the directed graph
of the evaluation sequence of this expression. The current system
only outputs the XML of the expression yet the directed graph can
still be derived manually.
 Users of your MTT basically need two programs: one that checks whether
the input is syntactiaclly correct and identifies at least one error
if it is not, and one that checks whether a proof (that may but need
not have unproven premises) is valid and identifies at least one error
if it is not.
 
MTT is build with YACC and LEX and outputs the XML of the
input expression.
LP := ~True(L, LP)
definition_2  token="ASSIGN_ALIAS"
| definition_2  token="IDENTIFIER"  value="LP"
| sentence_2  token="NOT"
| | atomic_sentence_1  token="IDENTIFIER"  value="True"
| | | term_list_1
| | | | term_2  token="IDENTIFIER"  value="L"
| | | | term_2  token="IDENTIFIER"  value="LP"
Directed graph of evaulation sequence of LP
Nodes on the left edges on the right
00 NOT   01
01 True   02, 00  // cycle
02 L
<definition_2  token="ASSIGN_ALIAS">
  <definition_2  token="IDENTIFIER"  value="LP"/>
  <sentence_2  token="NOT">
   <atomic_sentence_1  token="IDENTIFIER"  value="True">
    <term_list_1>
     <term_2  token="IDENTIFIER"  value="L"/>
     <term_2  token="IDENTIFIER"  value="LP"/>
    </term_list_1>
   </atomic_sentence_1>
  </sentence_2>
</definition_2>
--
Copyright 2024 Olcott "Talent hits a target no one else can hit; Genius
hits a target no one else can see." Arthur Schopenhauer

Date Sujet#  Auteur
18 May 24 * Re: True on the basis of meaning --- Good job Richard ! ---Socratic method65Richard Damon
18 May 24 `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method64olcott
18 May 24  `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method63Richard Damon
18 May 24   `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method62olcott
18 May 24    `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method61Richard Damon
18 May 24     `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method60olcott
18 May 24      `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method59Richard Damon
18 May 24       `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method58olcott
18 May 24        `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method57Richard Damon
18 May 24         `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method56olcott
18 May 24          `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method55Richard Damon
18 May 24           `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method54olcott
18 May 24            `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method53Richard Damon
18 May 24             +* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method2olcott
18 May 24             i`- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method1Richard Damon
18 May 24             `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method50olcott
18 May 24              `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method49Richard Damon
18 May 24               `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method48olcott
19 May 24                `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method47Richard Damon
19 May 24                 `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method46olcott
19 May 24                  `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method45Richard Damon
19 May 24                   `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method44olcott
19 May 24                    `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method43Richard Damon
19 May 24                     `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method42olcott
19 May 24                      +* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method15Richard Damon
19 May 24                      i`* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method14olcott
20 May 24                      i +* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method12Richard Damon
20 May 24                      i i`* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method11olcott
21 May 24                      i i `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method10Richard Damon
21 May 24                      i i  `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method9olcott
21 May 24                      i i   `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method8Richard Damon
21 May 24                      i i    `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method7olcott
21 May 24                      i i     `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method6Richard Damon
21 May 24                      i i      `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method5olcott
21 May 24                      i i       `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method4Richard Damon
21 May 24                      i i        `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method3olcott
21 May 24                      i i         +- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method1immibis
22 May 24                      i i         `- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method1Richard Damon
20 May 24                      i `- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method1immibis
20 May 24                      `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method26olcott
22 May 24                       `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)25olcott
23 May 24                        `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)24Richard Damon
23 May 24                         `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)23olcott
23 May 24                          +* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)21Richard Damon
23 May 24                          i+* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)6olcott
23 May 24                          ii`* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)5Richard Damon
23 May 24                          ii `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)4olcott
23 May 24                          ii  `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)3Richard Damon
23 May 24                          ii   `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)2olcott
24 May 24                          ii    `- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)1Richard Damon
25 May 24                          i`* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)14olcott
27 May 24                          i `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)13olcott
27 May 24                          i  `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT12olcott
28 May 24                          i   `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT11olcott
29 May 24                          i    `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT10Richard Damon
29 May 24                          i     `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT9olcott
29 May 24                          i      +* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT5Richard Damon
29 May 24                          i      i`* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT4olcott
29 May 24                          i      i `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT3Richard Damon
29 May 24                          i      i  `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT2olcott
30 May 24                          i      i   `- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT1Richard Damon
29 May 24                          i      `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT3Python
29 May 24                          i       `* Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT2olcott
30 May 24                          i        `- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method MTT1Richard Damon
23 May 24                          `- Re: True on the basis of meaning --- Good job Richard ! ---Socratic method (agreement)1olcott

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