sqgcd - Intuitionistic Logic Explorer

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Theorem sqgcd 11510

Description: Square distributes over GCD. (Contributed by Scott Fenton, 18-Apr-2014.) (Revised by Mario Carneiro, 19-Apr-2014.)

**Assertion**
Ref	Expression
sqgcd	$/\$

**Proof of Theorem sqgcd**
Step	Hyp	Ref	Expression
1		gcdnncl 11451	. . . . 5 $/\$
2	1	nnsqcld 10286	. . . 4 $/\$
3	2	nncnd 8592	. . 3 $/\$
4	3	mulid1d 7655	. 2 $/\$
5		nnsqcl 10203	. . . . . . 7
6	5	nnzd 9024	. . . . . 6
7	6	adantr 272	. . . . 5 $/\$
8		nnsqcl 10203	. . . . . . 7
9	8	nnzd 9024	. . . . . 6
10	9	adantl 273	. . . . 5 $/\$
11		nnz 8925	. . . . . . . 8
12		nnz 8925	. . . . . . . 8
13		gcddvds 11447	. . . . . . . 8 $/\$ $/\$
14	11, 12, 13	syl2an 285	. . . . . . 7 $/\$ $/\$
15	14	simpld 111	. . . . . 6 $/\$
16	1	nnzd 9024	. . . . . . 7 $/\$
17	11	adantr 272	. . . . . . 7 $/\$
18		dvdssqim 11505	. . . . . . 7 $/\$
19	16, 17, 18	syl2anc 406	. . . . . 6 $/\$
20	15, 19	mpd 13	. . . . 5 $/\$
21	14	simprd 113	. . . . . 6 $/\$
22	12	adantl 273	. . . . . . 7 $/\$
23		dvdssqim 11505	. . . . . . 7 $/\$
24	16, 22, 23	syl2anc 406	. . . . . 6 $/\$
25	21, 24	mpd 13	. . . . 5 $/\$
26		gcddiv 11500	. . . . 5 $/\$ $/\$ $/\$ $/\$
27	7, 10, 2, 20, 25, 26	syl32anc 1192	. . . 4 $/\$
28		nncn 8586	. . . . . . 7
29	28	adantr 272	. . . . . 6 $/\$
30	1	nncnd 8592	. . . . . 6 $/\$
31	1	nnap0d 8624	. . . . . 6 $/\$ #
32	29, 30, 31	sqdivapd 10278	. . . . 5 $/\$
33		nncn 8586	. . . . . . 7
34	33	adantl 273	. . . . . 6 $/\$
35	34, 30, 31	sqdivapd 10278	. . . . 5 $/\$
36	32, 35	oveq12d 5724	. . . 4 $/\$
37		gcddiv 11500	. . . . . . 7 $/\$ $/\$ $/\$ $/\$
38	17, 22, 1, 14, 37	syl31anc 1187	. . . . . 6 $/\$
39	30, 31	dividapd 8407	. . . . . 6 $/\$
40	38, 39	eqtr3d 2134	. . . . 5 $/\$
41	1	nnne0d 8623	. . . . . . . . 9 $/\$
42		dvdsval2 11291	. . . . . . . . 9 $/\$ $/\$
43	16, 41, 17, 42	syl3anc 1184	. . . . . . . 8 $/\$
44	15, 43	mpbid 146	. . . . . . 7 $/\$
45		nnre 8585	. . . . . . . . 9
46	45	adantr 272	. . . . . . . 8 $/\$
47	1	nnred 8591	. . . . . . . 8 $/\$
48		nngt0 8603	. . . . . . . . 9
49	48	adantr 272	. . . . . . . 8 $/\$
50	1	nngt0d 8622	. . . . . . . 8 $/\$
51	46, 47, 49, 50	divgt0d 8551	. . . . . . 7 $/\$
52		elnnz 8916	. . . . . . 7 $/\$
53	44, 51, 52	sylanbrc 411	. . . . . 6 $/\$
54		dvdsval2 11291	. . . . . . . . 9 $/\$ $/\$
55	16, 41, 22, 54	syl3anc 1184	. . . . . . . 8 $/\$
56	21, 55	mpbid 146	. . . . . . 7 $/\$
57		nnre 8585	. . . . . . . . 9
58	57	adantl 273	. . . . . . . 8 $/\$
59		nngt0 8603	. . . . . . . . 9
60	59	adantl 273	. . . . . . . 8 $/\$
61	58, 47, 60, 50	divgt0d 8551	. . . . . . 7 $/\$
62		elnnz 8916	. . . . . . 7 $/\$
63	56, 61, 62	sylanbrc 411	. . . . . 6 $/\$
64		2nn 8733	. . . . . . 7
65		rppwr 11509	. . . . . . 7 $/\$ $/\$
66	64, 65	mp3an3 1272	. . . . . 6 $/\$
67	53, 63, 66	syl2anc 406	. . . . 5 $/\$
68	40, 67	mpd 13	. . . 4 $/\$
69	27, 36, 68	3eqtr2d 2138	. . 3 $/\$
70	6, 9	anim12i 334	. . . . . 6 $/\$ $/\$
71	5	nnne0d 8623	. . . . . . . . 9
72	71	neneqd 2288	. . . . . . . 8
73	72	intnanrd 885	. . . . . . 7 $/\$
74	73	adantr 272	. . . . . 6 $/\$ $/\$
75		gcdn0cl 11446	. . . . . 6 $/\$ $/\$ $/\$
76	70, 74, 75	syl2anc 406	. . . . 5 $/\$
77	76	nncnd 8592	. . . 4 $/\$
78	2	nnap0d 8624	. . . 4 $/\$ #
79		ax-1cn 7588	. . . . 5
80		divmulap 8296	. . . . 5 $/\$ $/\$ $/\$ #
81	79, 80	mp3an2 1271	. . . 4 $/\$ $/\$ #
82	77, 3, 78, 81	syl12anc 1182	. . 3 $/\$
83	69, 82	mpbid 146	. 2 $/\$
84	4, 83	eqtr3d 2134	1 $/\$

Colors of variables: wff set class

Syntax hints:

wn 3

wi 4 $/\$ wa 103

wb 104

wceq 1299

wcel 1448

wne 2267 class class class wbr 3875 (class class class)co 5706

cc 7498

cr 7499

cc0 7500

c1 7501

cmul 7505

clt 7672 # cap 8209

cdiv 8293

cn 8578

c2 8629

cz 8906

cexp 10133

cdvds 11288

cgcd 11430

This theorem was proved from axioms: ax-1 5 ax-2 6 ax-mp 7 ax-ia1 105 ax-ia2 106 ax-ia3 107 ax-in1 584 ax-in2 585 ax-io 671 ax-5 1391 ax-7 1392 ax-gen 1393 ax-ie1 1437 ax-ie2 1438 ax-8 1450 ax-10 1451 ax-11 1452 ax-i12 1453 ax-bndl 1454 ax-4 1455 ax-13 1459 ax-14 1460 ax-17 1474 ax-i9 1478 ax-ial 1482 ax-i5r 1483 ax-ext 2082 ax-coll 3983 ax-sep 3986 ax-nul 3994 ax-pow 4038 ax-pr 4069 ax-un 4293 ax-setind 4390 ax-iinf 4440 ax-cnex 7586 ax-resscn 7587 ax-1cn 7588 ax-1re 7589 ax-icn 7590 ax-addcl 7591 ax-addrcl 7592 ax-mulcl 7593 ax-mulrcl 7594 ax-addcom 7595 ax-mulcom 7596 ax-addass 7597 ax-mulass 7598 ax-distr 7599 ax-i2m1 7600 ax-0lt1 7601 ax-1rid 7602 ax-0id 7603 ax-rnegex 7604 ax-precex 7605 ax-cnre 7606 ax-pre-ltirr 7607 ax-pre-ltwlin 7608 ax-pre-lttrn 7609 ax-pre-apti 7610 ax-pre-ltadd 7611 ax-pre-mulgt0 7612 ax-pre-mulext 7613 ax-arch 7614 ax-caucvg 7615

This theorem depends on definitions: df-bi 116 df-dc 787 df-3or 931 df-3an 932 df-tru 1302 df-fal 1305 df-nf 1405 df-sb 1704 df-eu 1963 df-mo 1964 df-clab 2087 df-cleq 2093 df-clel 2096 df-nfc 2229 df-ne 2268 df-nel 2363 df-ral 2380 df-rex 2381 df-reu 2382 df-rmo 2383 df-rab 2384 df-v 2643 df-sbc 2863 df-csb 2956 df-dif 3023 df-un 3025 df-in 3027 df-ss 3034 df-nul 3311 df-if 3422 df-pw 3459 df-sn 3480 df-pr 3481 df-op 3483 df-uni 3684 df-int 3719 df-iun 3762 df-br 3876 df-opab 3930 df-mpt 3931 df-tr 3967 df-id 4153 df-po 4156 df-iso 4157 df-iord 4226 df-on 4228 df-ilim 4229 df-suc 4231 df-iom 4443 df-xp 4483 df-rel 4484 df-cnv 4485 df-co 4486 df-dm 4487 df-rn 4488 df-res 4489 df-ima 4490 df-iota 5024 df-fun 5061 df-fn 5062 df-f 5063 df-f1 5064 df-fo 5065 df-f1o 5066 df-fv 5067 df-riota 5662 df-ov 5709 df-oprab 5710 df-mpo 5711 df-1st 5969 df-2nd 5970 df-recs 6132 df-frec 6218 df-sup 6786 df-pnf 7674 df-mnf 7675 df-xr 7676 df-ltxr 7677 df-le 7678 df-sub 7806 df-neg 7807 df-reap 8203 df-ap 8210 df-div 8294 df-inn 8579 df-2 8637 df-3 8638 df-4 8639 df-n0 8830 df-z 8907 df-uz 9177 df-q 9262 df-rp 9292 df-fz 9632 df-fzo 9761 df-fl 9884 df-mod 9937 df-seqfrec 10060 df-exp 10134 df-cj 10455 df-re 10456 df-im 10457 df-rsqrt 10610 df-abs 10611 df-dvds 11289 df-gcd 11431

This theorem is referenced by: dvdssqlem 11511 nn0gcdsq 11670

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