Date: Feb 5, 2013 11:45 PM Author: JT Subject: Re: Which naturals better? On 6 Feb, 05:35, JT <jonas.thornv...@gmail.com> wrote:

> On 6 Feb, 01:30, Virgil <vir...@ligriv.com> wrote:

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> > In article

> > <22962166-7f37-4a00-a88d-829d8c14e...@g8g2000vbf.googlegroups.com>,

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> > JT <jonas.thornv...@gmail.com> wrote:

> > > On 5 Feb, 09:04, Virgil <vir...@ligriv.com> wrote:

> > > > In article

> > > > <35d3dbda-612a-4ce8-ba5d-935295170...@h11g2000vbf.googlegroups.com>,

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> > > > JT <jonas.thornv...@gmail.com> wrote:

> > > > > On 4 Feb, 11:02, Frederick Williams <freddywilli...@btinternet.com>

> > > > > wrote:

> > > > > > JT wrote:

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> > > > > > > Building new natural numbers without zero using NyaN, in any base,

> > > > > > > [...]

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> > > > > > You seem to confuse numbers and digits. Both of these are true:

> > > > > > There is a number zero.

> > > > > > Numbers can be symbolized without the digit zero.

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> > > > > > --

> > > > > > When a true genius appears in the world, you may know him by

> > > > > > this sign, that the dunces are all in confederacy against him.

> > > > > > Jonathan Swift: Thoughts on Various Subjects, Moral and Diverting

>

> > > > > No there is no zero in my list of naturals, in my list is each natural

> > > > > number a discrete ***items***, ***entity*** with a magnitude.

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> > > > Zero is a perfectly good "magnitude", and in ever more set theories,

> > > > zero is a perfectly good natural number.

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> > > > So how can you have an arithmetic of natural numbers which does not

> > > > allow a numeral representing the first of them??

> > > > --

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> > > You do not listen to what i say each natural (not zero) is an entity

> > > with a range if they had no range you could not divide and make

> > > fractions not partition.

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> > To me each natural, including zero is a number of objects that can be

> > in a (finite) set.

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> > In my world a set can be empty, so that in my world zero is a natural

> > number.

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> > > You can not partition zero it do not have a

> > > range of a natural you can not count zero into the set. Natural

> > > numbers is just sets of arranging an amount of single naturals, they

> > > all have the same magnitude when you say 7 it is an identity for set

> > > (1,1,1,1,1,1,1) now you can say that is (7) but the seven have

> > > members. Each natural identity like 7 is a set of single=1 naturals

> > > with magnitude and zero do not belong to that set.

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> > > If you empty the set of (7) by picking out a single item there is no

> > > object zero. And when you count in a single natural first natural

> > > entity is 1 second 2.

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> > > There is a language gap here for me a natural is a single 1 and 7

> > > seven is a set of seven members with single ones. So what would like

> > > me to call the one that make up your naturals. I guess in math 7 is a

> > > natural, to me it is an identity used for (1,1,1,1,1,1,1) this set is

> > > countable. The set of (7) is based on the assumption of

> > > (1,1,1,1,1,1,1) i am not sure what mathematicians mean by an identity,

> > > but it seem to me like 7 incorporates the hidden assumption of

> > > 1+1+1+1+1+1+1 and thus all natural numbers except for 1 is identities.

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> > In my world (1,1,1,1,1,1,1) is a list, but not a set.

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> > In my world a list with the same thing appearing in it more than once,

> > like your (1,1,1,1,1,1,1) cannot ever be a set. And the set of elements

> > appearing in such a list is {1}.

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> > In my world the sets {1,2} and {2,1} are the same but the lists (1,2)

> > and (2,1) are different.

> > --

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> But it still doesn't have any magnitude, in my set your each member 1

> have a magnitude. Well i see now the brackets distinguish between sets

> and list, and i guess the list is ordered while the set is not. So i

> should have used the other type of brackets, but it really doesn't

> matter, because you see natural numbers as positions upon a

> numberline, while their really are sets formed of entities

> {1,1,1} {1,1,1,1} {1,1,1,1,1}where each 1 have a start and endpoint a

> magnitude. And zero does not qualify into these sets of naturals

> because it have no magnitude, and again for you the naturals are

> dotlike for me the they have enclosing fractions, basicly my set

> {1,1,1} is a cut or a sum of cuts anywhere upon your numberline

> example 2-> 5 or 3 -> 6 and so on. I do not beleive in the numberline

> it is just counted entities, but the basic distinction is that the 1's

> forming my set do have magnitudes since they are cuts. Now try cut out

> zero upon your numberline it has no magnitude, and that is why it do

> not qualify as a set forming a natural or even as a number.

> It is your empty buckets and they have no place in arethmetics.

A single 1 do have a magnitude because 1/3+2/3=1 so it can not be that

the 1 upon the numberline is just a point, it must have extension

range. If the natural one can be formed from fractions/cuts it also

have magnitude.