FOM: 33:A Variant

[Harvey Friedman]

This is the 33rd in a series of self contained postings to fom covering a
wide range of topics in f.o.m. Previous ones are:

1:Foundational Completeness   11/3/97, 10:13AM, 10:26AM.
2:Axioms  11/6/97.
3:Simplicity  11/14/97 10:10AM.
4:Simplicity  11/14/97  4:25PM
5:Constructions  11/15/97  5:24PM
6:Undefinability/Nonstandard Models   11/16/97  12:04AM
7.Undefinability/Nonstandard Models   11/17/97  12:31AM
8.Schemes 11/17/97    12:30AM
9:Nonstandard Arithmetic 11/18/97  11:53AM
10:Pathology   12/8/97   12:37AM
11:F.O.M. & Math Logic  12/14/97 5:47AM
12:Finite trees/large cardinals  3/11/98  11:36AM
13:Min recursion/Provably recursive functions  3/20/98  4:45AM
14:New characterizations of the provable ordinals  4/8/98  2:09AM
14':Errata  4/8/98  9:48AM
15:Structural Independence results and provable ordinals  4/16/98
10:53PM
16:Logical Equations, etc.  4/17/98  1:25PM
16':Errata  4/28/98  10:28AM
17:Very Strong Borel statements  4/26/98  8:06PM
18:Binary Functions and Large Cardinals  4/30/98  12:03PM
19:Long Sequences  7/31/98  9:42AM
20:Proof Theoretic Degrees  8/2/98  9:37PM
21:Long Sequences/Update  10/13/98  3:18AM
22:Finite Trees/Impredicativity  10/20/98  10:13AM
23:Q-Systems and Proof Theoretic Ordinals  11/6/98  3:01AM
24:Predicatively Unfeasible Integers  11/10/98  10:44PM
25:Long Walks  11/16/98  7:05AM
26:Optimized functions/Large Cardinals  1/13/99  12:53PM
27:Finite Trees/Impredicativity:Sketches  1/13/99  12:54PM
28:Optimized Functions/Large Cardinals:more  1/27/99  4:37AM
28':Restatement  1/28/99  5:49AM
29:Large Cardinals/where are we? I  2/22/99  6:11AM
30:Large Cardinals/where are we? II  2/23/99  6:15AM
31:First Free Sets/Large Cardinals  2/27/99  1:43AM
32:Greedy Constructions/Large Cardinals  3/2/99  11:21PM

A complete archiving of fom, message by message, is available at
http://www.math.psu.edu/simpson/fom/
Also, my series of self contained postings (only) is archived at
http://www.math.ohio-state.edu/foundations/manuscripts.html

FAVORITE SELF CONTAINED POSTINGS: 21, 25, 27, 31, 32, 33.

This short note presents a variant of the independent Proposition 2 from
posting 31. The current plan is to lead off with this alternative (see
Proposition 2*) below, and then immediately follow with the previous
Proposition 2 and further technical variants that don't mention F-free
sets.

Recall Proposition 2 from posting 31:

PROPOSITION 2. Let k,n >= 1 and F:N^k into N. There exists sets A[1]
containedin A[2] ... containedin A[n] containedin N such that
i) A[1] is an infinite set of odd integers;
ii) for all 1 <= i <= n-1, A[i+1] is the first F-free subset of A[i+1]
union A[i]+A[i].

Here is the variant:

PROPOSITION 2*. Let k,n >= 1 and F:N^k into N. There exists sets A[1]
containedin A[2] ... containedin A[n] containedin N such that for all 1 <=
i <= n-1, A[i+1] is the first F-free subset of A[i+1] union A[i]+A[i] with
infinitely many odd elements.