4bc2eq6 - Intuitionistic Logic Explorer

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Theorem 4bc2eq6 10245

Description: The value of four choose two. (Contributed by Scott Fenton, 9-Jan-2017.)

**Assertion**
Ref	Expression
4bc2eq6

**Proof of Theorem 4bc2eq6**
Step	Hyp	Ref	Expression
1		0z 8824	. . . . 5
2		4z 8843	. . . . 5
3		2z 8841	. . . . 5
4	1, 2, 3	3pm3.2i 1122	. . . 4 $/\$ $/\$
5		0le2 8575	. . . . 5
6		2re 8555	. . . . . 6
7		4re 8562	. . . . . 6
8		2lt4 8652	. . . . . 6
9	6, 7, 8	ltleii 7650	. . . . 5
10	5, 9	pm3.2i 267	. . . 4 $/\$
11		elfz4 9496	. . . 4 $/\$ $/\$ $/\$ $/\$
12	4, 10, 11	mp2an 418	. . 3
13		bcval2 10221	. . 3
14	12, 13	ax-mp 7	. 2
15		3nn0 8754	. . . . . 6
16		facp1 10201	. . . . . 6
17	15, 16	ax-mp 7	. . . . 5
18		df-4 8546	. . . . . 6
19	18	fveq2i 5323	. . . . 5
20	18	oveq2i 5679	. . . . 5
21	17, 19, 20	3eqtr4i 2119	. . . 4
22		4cn 8563	. . . . . . . . 9
23		2cn 8556	. . . . . . . . 9
24		2p2e4 8606	. . . . . . . . 9
25	22, 23, 23, 24	subaddrii 7834	. . . . . . . 8
26	25	fveq2i 5323	. . . . . . 7
27		fac2 10202	. . . . . . 7
28	26, 27	eqtri 2109	. . . . . 6
29	28, 27	oveq12i 5680	. . . . 5
30		2t2e4 8633	. . . . 5
31	29, 30	eqtri 2109	. . . 4
32	21, 31	oveq12i 5680	. . 3
33		faccl 10206	. . . . . . 7
34	15, 33	ax-mp 7	. . . . . 6
35	34	nncni 8495	. . . . 5
36		4ap0 8584	. . . . 5 #
37	35, 22, 36	divcanap4i 8289	. . . 4
38		fac3 10203	. . . 4
39	37, 38	eqtri 2109	. . 3
40	32, 39	eqtri 2109	. 2
41	14, 40	eqtri 2109	1

Colors of variables: wff set class

Syntax hints: $/\$ wa 103 $/\$ w3a 925

wceq 1290

wcel 1439 class class class wbr 3853

cfv 5030 (class class class)co 5668

cc0 7413

c1 7414

caddc 7416

cmul 7418

cle 7586

cmin 7716

cdiv 8202

cn 8485

c2 8536

c3 8537

c4 8538

c6 8540

cn0 8736

cz 8813

cfz 9487

cfa 10196

cbc 10218

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 580 ax-in2 581 ax-io 666 ax-5 1382 ax-7 1383 ax-gen 1384 ax-ie1 1428 ax-ie2 1429 ax-8 1441 ax-10 1442 ax-11 1443 ax-i12 1444 ax-bndl 1445 ax-4 1446 ax-13 1450 ax-14 1451 ax-17 1465 ax-i9 1469 ax-ial 1473 ax-i5r 1474 ax-ext 2071 ax-coll 3962 ax-sep 3965 ax-nul 3973 ax-pow 4017 ax-pr 4047 ax-un 4271 ax-setind 4368 ax-iinf 4418 ax-cnex 7499 ax-resscn 7500 ax-1cn 7501 ax-1re 7502 ax-icn 7503 ax-addcl 7504 ax-addrcl 7505 ax-mulcl 7506 ax-mulrcl 7507 ax-addcom 7508 ax-mulcom 7509 ax-addass 7510 ax-mulass 7511 ax-distr 7512 ax-i2m1 7513 ax-0lt1 7514 ax-1rid 7515 ax-0id 7516 ax-rnegex 7517 ax-precex 7518 ax-cnre 7519 ax-pre-ltirr 7520 ax-pre-ltwlin 7521 ax-pre-lttrn 7522 ax-pre-apti 7523 ax-pre-ltadd 7524 ax-pre-mulgt0 7525 ax-pre-mulext 7526

This theorem depends on definitions: df-bi 116 df-dc 782 df-3or 926 df-3an 927 df-tru 1293 df-fal 1296 df-nf 1396 df-sb 1694 df-eu 1952 df-mo 1953 df-clab 2076 df-cleq 2082 df-clel 2085 df-nfc 2218 df-ne 2257 df-nel 2352 df-ral 2365 df-rex 2366 df-reu 2367 df-rmo 2368 df-rab 2369 df-v 2624 df-sbc 2844 df-csb 2937 df-dif 3004 df-un 3006 df-in 3008 df-ss 3015 df-nul 3290 df-if 3400 df-pw 3437 df-sn 3458 df-pr 3459 df-op 3461 df-uni 3662 df-int 3697 df-iun 3740 df-br 3854 df-opab 3908 df-mpt 3909 df-tr 3945 df-id 4131 df-po 4134 df-iso 4135 df-iord 4204 df-on 4206 df-ilim 4207 df-suc 4209 df-iom 4421 df-xp 4460 df-rel 4461 df-cnv 4462 df-co 4463 df-dm 4464 df-rn 4465 df-res 4466 df-ima 4467 df-iota 4995 df-fun 5032 df-fn 5033 df-f 5034 df-f1 5035 df-fo 5036 df-f1o 5037 df-fv 5038 df-riota 5624 df-ov 5671 df-oprab 5672 df-mpt2 5673 df-1st 5927 df-2nd 5928 df-recs 6086 df-frec 6172 df-pnf 7587 df-mnf 7588 df-xr 7589 df-ltxr 7590 df-le 7591 df-sub 7718 df-neg 7719 df-reap 8115 df-ap 8122 df-div 8203 df-inn 8486 df-2 8544 df-3 8545 df-4 8546 df-5 8547 df-6 8548 df-n0 8737 df-z 8814 df-uz 9083 df-q 9168 df-fz 9488 df-iseq 9916 df-fac 10197 df-bc 10219

This theorem is referenced by: ex-bc 11960