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 : mikko.levanto (at) *nospam* iki.fi (Mikko)
Groupes : sci.logic
Date : 22. May 2024, 09:57:12
Autres entêtes
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Message-ID : <v2k8go$1363g$1@dont-email.me>
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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).

*That is great. That means that you agree with me using different words*
Saying that you have a syntax error does not mean agreement.
--
Mikko

Date Sujet#  Auteur
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