nneoor - Intuitionistic Logic Explorer

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Theorem nneoor 9344

Description: A positive integer is even or odd. (Contributed by Jim Kingdon, 15-Mar-2020.)

**Assertion**
Ref	Expression
nneoor	$\/$

Proof of Theorem nneoor Dummy variables

are mutually distinct and distinct from all other variables.

Step	Hyp	Ref	Expression
1		oveq1 5876	. . . . . 6
2	1	oveq1d 5884	. . . . 5
3	2	eleq1d 2246	. . . 4
4		oveq1 5876	. . . . 5
5	4	eleq1d 2246	. . . 4
6	3, 5	orbi12d 793	. . 3 $\/$ $\/$
7		oveq1 5876	. . . . . 6
8	7	oveq1d 5884	. . . . 5
9	8	eleq1d 2246	. . . 4
10		oveq1 5876	. . . . 5
11	10	eleq1d 2246	. . . 4
12	9, 11	orbi12d 793	. . 3 $\/$ $\/$
13		oveq1 5876	. . . . . 6
14	13	oveq1d 5884	. . . . 5
15	14	eleq1d 2246	. . . 4
16		oveq1 5876	. . . . 5
17	16	eleq1d 2246	. . . 4
18	15, 17	orbi12d 793	. . 3 $\/$ $\/$
19		oveq1 5876	. . . . . 6
20	19	oveq1d 5884	. . . . 5
21	20	eleq1d 2246	. . . 4
22		oveq1 5876	. . . . 5
23	22	eleq1d 2246	. . . 4
24	21, 23	orbi12d 793	. . 3 $\/$ $\/$
25		df-2 8967	. . . . . . 7
26	25	oveq1i 5879	. . . . . 6
27		2div2e1 9040	. . . . . 6
28	26, 27	eqtr3i 2200	. . . . 5
29		1nn 8919	. . . . 5
30	28, 29	eqeltri 2250	. . . 4
31	30	orci 731	. . 3 $\/$
32		peano2nn 8920	. . . . . 6
33		nncn 8916	. . . . . . . 8
34		add1p1 9157	. . . . . . . . . 10
35	34	oveq1d 5884	. . . . . . . . 9
36		2cn 8979	. . . . . . . . . . 11
37		2ap0 9001	. . . . . . . . . . . 12 #
38	36, 37	pm3.2i 272	. . . . . . . . . . 11 $/\$ #
39		divdirap 8643	. . . . . . . . . . 11 $/\$ $/\$ $/\$ #
40	36, 38, 39	mp3an23 1329	. . . . . . . . . 10
41	27	oveq2i 5880	. . . . . . . . . 10
42	40, 41	eqtrdi 2226	. . . . . . . . 9
43	35, 42	eqtrd 2210	. . . . . . . 8
44	33, 43	syl 14	. . . . . . 7
45	44	eleq1d 2246	. . . . . 6
46	32, 45	syl5ibr 156	. . . . 5
47	46	orim2d 788	. . . 4 $\/$ $\/$
48		orcom 728	. . . 4 $\/$ $\/$
49	47, 48	syl6ib 161	. . 3 $\/$ $\/$
50	6, 12, 18, 24, 31, 49	nnind 8924	. 2 $\/$
51	50	orcomd 729	1 $\/$

Colors of variables: wff set class

Syntax hints:

wi 4 $/\$ wa 104 $\/$ wo 708

wceq 1353

wcel 2148 class class class wbr 4000 (class class class)co 5869

cc 7800

cc0 7802

c1 7803

caddc 7805 # cap 8528

cdiv 8618

cn 8908

c2 8959

This theorem was proved from axioms: ax-mp 5 ax-1 6 ax-2 7 ax-ia1 106 ax-ia2 107 ax-ia3 108 ax-in1 614 ax-in2 615 ax-io 709 ax-5 1447 ax-7 1448 ax-gen 1449 ax-ie1 1493 ax-ie2 1494 ax-8 1504 ax-10 1505 ax-11 1506 ax-i12 1507 ax-bndl 1509 ax-4 1510 ax-17 1526 ax-i9 1530 ax-ial 1534 ax-i5r 1535 ax-13 2150 ax-14 2151 ax-ext 2159 ax-sep 4118 ax-pow 4171 ax-pr 4206 ax-un 4430 ax-setind 4533 ax-cnex 7893 ax-resscn 7894 ax-1cn 7895 ax-1re 7896 ax-icn 7897 ax-addcl 7898 ax-addrcl 7899 ax-mulcl 7900 ax-mulrcl 7901 ax-addcom 7902 ax-mulcom 7903 ax-addass 7904 ax-mulass 7905 ax-distr 7906 ax-i2m1 7907 ax-0lt1 7908 ax-1rid 7909 ax-0id 7910 ax-rnegex 7911 ax-precex 7912 ax-cnre 7913 ax-pre-ltirr 7914 ax-pre-ltwlin 7915 ax-pre-lttrn 7916 ax-pre-apti 7917 ax-pre-ltadd 7918 ax-pre-mulgt0 7919 ax-pre-mulext 7920

This theorem depends on definitions: df-bi 117 df-3an 980 df-tru 1356 df-fal 1359 df-nf 1461 df-sb 1763 df-eu 2029 df-mo 2030 df-clab 2164 df-cleq 2170 df-clel 2173 df-nfc 2308 df-ne 2348 df-nel 2443 df-ral 2460 df-rex 2461 df-reu 2462 df-rmo 2463 df-rab 2464 df-v 2739 df-sbc 2963 df-dif 3131 df-un 3133 df-in 3135 df-ss 3142 df-pw 3576 df-sn 3597 df-pr 3598 df-op 3600 df-uni 3808 df-int 3843 df-br 4001 df-opab 4062 df-id 4290 df-po 4293 df-iso 4294 df-xp 4629 df-rel 4630 df-cnv 4631 df-co 4632 df-dm 4633 df-iota 5174 df-fun 5214 df-fv 5220 df-riota 5825 df-ov 5872 df-oprab 5873 df-mpo 5874 df-pnf 7984 df-mnf 7985 df-xr 7986 df-ltxr 7987 df-le 7988 df-sub 8120 df-neg 8121 df-reap 8522 df-ap 8529 df-div 8619 df-inn 8909 df-2 8967

This theorem is referenced by: nneo 9345 zeo 9347