Bibliographic Cross-Reference - Intuitionistic Logic Explorer

Bibliographic Cross-References   This table collects in one place the bibliographic references made in the Intuitionistic Logic Explorer's axiom, definition, and theorem Descriptions. If you are studying a particular reference, this list can be handy for finding out where any corresponding Metamath theorems might be located. Keep in mind that we usually give only one reference for a theorem that may appear in several books, so it can also be useful to browse the Related Theorems around a theorem of interest.

Bibliographic Cross-Reference for the Intuitionistic Logic Explorer

Bibliographic Reference	Description	Intuitionistic Logic Explorer Page(s)
[AczelRathjen], p. 71	Definition 8.1.4	enumct 7308  fidcenum 7149
[AczelRathjen], p. 72	Proposition 8.1.11	fidcenum 7149
[AczelRathjen], p. 73	Lemma 8.1.14	enumct 7308
[AczelRathjen], p. 73	Corollary 8.1.13	ennnfone 13039
[AczelRathjen], p. 74	Lemma 8.1.16	xpfi 7119
[AczelRathjen], p. 74	Remark 8.1.17	unfiexmid 7105
[AczelRathjen], p. 74	Theorem 8.1.19	ctiunct 13054
[AczelRathjen], p. 75	Corollary 8.1.20	unct 13056
[AczelRathjen], p. 75	Corollary 8.1.23	qnnen 13045  znnen 13012
[AczelRathjen], p. 77	Lemma 8.1.27	omctfn 13057
[AczelRathjen], p. 78	Theorem 8.1.28	omiunct 13058
[AczelRathjen], p. 80	Corollary 8.2.4	df-ihash 11031
[AczelRathjen], p. 183	Chapter 20	ax-setind 4633
[AhoHopUll] p. 318	Section 9.1	df-concat 11161  df-pfx 11247  df-substr 11220  df-word 11107  lencl 11110  wrd0 11131
[Apostol] p. 18	Theorem I.1	addcan 8352  addcan2d 8357  addcan2i 8355  addcand 8356  addcani 8354
[Apostol] p. 18	Theorem I.2	negeu 8363
[Apostol] p. 18	Theorem I.3	negsub 8420  negsubd 8489  negsubi 8450
[Apostol] p. 18	Theorem I.4	negneg 8422  negnegd 8474  negnegi 8442
[Apostol] p. 18	Theorem I.5	subdi 8557  subdid 8586  subdii 8579  subdir 8558  subdird 8587  subdiri 8580
[Apostol] p. 18	Theorem I.6	mul01 8561  mul01d 8565  mul01i 8563  mul02 8559  mul02d 8564  mul02i 8562
[Apostol] p. 18	Theorem I.9	divrecapd 8966
[Apostol] p. 18	Theorem I.10	recrecapi 8917
[Apostol] p. 18	Theorem I.12	mul2neg 8570  mul2negd 8585  mul2negi 8578  mulneg1 8567  mulneg1d 8583  mulneg1i 8576
[Apostol] p. 18	Theorem I.14	rdivmuldivd 14151
[Apostol] p. 18	Theorem I.15	divdivdivap 8886
[Apostol] p. 20	Axiom 7	rpaddcl 9905  rpaddcld 9940  rpmulcl 9906  rpmulcld 9941
[Apostol] p. 20	Axiom 9	0nrp 9917
[Apostol] p. 20	Theorem I.17	lttri 8277
[Apostol] p. 20	Theorem I.18	ltadd1d 8711  ltadd1dd 8729  ltadd1i 8675
[Apostol] p. 20	Theorem I.19	ltmul1 8765  ltmul1a 8764  ltmul1i 9093  ltmul1ii 9101  ltmul2 9029  ltmul2d 9967  ltmul2dd 9981  ltmul2i 9096
[Apostol] p. 20	Theorem I.21	0lt1 8299
[Apostol] p. 20	Theorem I.23	lt0neg1 8641  lt0neg1d 8688  ltneg 8635  ltnegd 8696  ltnegi 8666
[Apostol] p. 20	Theorem I.25	lt2add 8618  lt2addd 8740  lt2addi 8683
[Apostol] p. 20	Definition of positive numbers	df-rp 9882
[Apostol] p. 21	Exercise 4	recgt0 9023  recgt0d 9107  recgt0i 9079  recgt0ii 9080
[Apostol] p. 22	Definition of integers	df-z 9473
[Apostol] p. 22	Definition of rationals	df-q 9847
[Apostol] p. 24	Theorem I.26	supeuti 7187
[Apostol] p. 26	Theorem I.29	arch 9392
[Apostol] p. 28	Exercise 2	btwnz 9592
[Apostol] p. 28	Exercise 3	nnrecl 9393
[Apostol] p. 28	Exercise 6	qbtwnre 10509
[Apostol] p. 28	Exercise 10(a)	zeneo 12425  zneo 9574
[Apostol] p. 29	Theorem I.35	resqrtth 11585  sqrtthi 11673
[Apostol] p. 34	Theorem I.36 (principle of mathematical induction)	peano5nni 9139
[Apostol] p. 34	Theorem I.37 (well-ordering principle)	nnwodc 12600
[Apostol] p. 363	Remark	absgt0api 11700
[Apostol] p. 363	Example	abssubd 11747  abssubi 11704
[ApostolNT] p. 14	Definition	df-dvds 12342
[ApostolNT] p. 14	Theorem 1.1(a)	iddvds 12358
[ApostolNT] p. 14	Theorem 1.1(b)	dvdstr 12382
[ApostolNT] p. 14	Theorem 1.1(c)	dvds2ln 12378
[ApostolNT] p. 14	Theorem 1.1(d)	dvdscmul 12372
[ApostolNT] p. 14	Theorem 1.1(e)	dvdscmulr 12374
[ApostolNT] p. 14	Theorem 1.1(f)	1dvds 12359
[ApostolNT] p. 14	Theorem 1.1(g)	dvds0 12360
[ApostolNT] p. 14	Theorem 1.1(h)	0dvds 12365
[ApostolNT] p. 14	Theorem 1.1(i)	dvdsleabs 12399
[ApostolNT] p. 14	Theorem 1.1(j)	dvdsabseq 12401
[ApostolNT] p. 14	Theorem 1.1(k)	divconjdvds 12403
[ApostolNT] p. 15	Definition	dfgcd2 12578
[ApostolNT] p. 16	Definition	isprm2 12682
[ApostolNT] p. 16	Theorem 1.5	coprmdvds 12657
[ApostolNT] p. 16	Theorem 1.7	prminf 13069
[ApostolNT] p. 16	Theorem 1.4(a)	gcdcom 12537
[ApostolNT] p. 16	Theorem 1.4(b)	gcdass 12579
[ApostolNT] p. 16	Theorem 1.4(c)	absmulgcd 12581
[ApostolNT] p. 16	Theorem 1.4(d)1	gcd1 12551
[ApostolNT] p. 16	Theorem 1.4(d)2	gcdid0 12544
[ApostolNT] p. 17	Theorem 1.8	coprm 12709
[ApostolNT] p. 17	Theorem 1.9	euclemma 12711
[ApostolNT] p. 17	Theorem 1.10	1arith2 12934
[ApostolNT] p. 19	Theorem 1.14	divalg 12478
[ApostolNT] p. 20	Theorem 1.15	eucalg 12624
[ApostolNT] p. 25	Definition	df-phi 12776
[ApostolNT] p. 26	Theorem 2.2	phisum 12806
[ApostolNT] p. 28	Theorem 2.5(a)	phiprmpw 12787
[ApostolNT] p. 28	Theorem 2.5(c)	phimul 12791
[ApostolNT] p. 38	Remark	df-sgm 15699
[ApostolNT] p. 38	Definition	df-sgm 15699
[ApostolNT] p. 104	Definition	congr 12665
[ApostolNT] p. 106	Remark	dvdsval3 12345
[ApostolNT] p. 106	Definition	moddvds 12353
[ApostolNT] p. 107	Example 2	mod2eq0even 12432
[ApostolNT] p. 107	Example 3	mod2eq1n2dvds 12433
[ApostolNT] p. 107	Example 4	zmod1congr 10596
[ApostolNT] p. 107	Theorem 5.2(b)	modqmul12d 10633
[ApostolNT] p. 107	Theorem 5.2(c)	modqexp 10921
[ApostolNT] p. 108	Theorem 5.3	modmulconst 12377
[ApostolNT] p. 109	Theorem 5.4	cncongr1 12668
[ApostolNT] p. 109	Theorem 5.6	gcdmodi 12987
[ApostolNT] p. 109	Theorem 5.4 "Cancellation law"	cncongr 12670
[ApostolNT] p. 113	Theorem 5.17	eulerth 12798
[ApostolNT] p. 113	Theorem 5.18	vfermltl 12817
[ApostolNT] p. 114	Theorem 5.19	fermltl 12799
[ApostolNT] p. 179	Definition	df-lgs 15720  lgsprme0 15764
[ApostolNT] p. 180	Example 1	1lgs 15765
[ApostolNT] p. 180	Theorem 9.2	lgsvalmod 15741
[ApostolNT] p. 180	Theorem 9.3	lgsdirprm 15756
[ApostolNT] p. 181	Theorem 9.4	m1lgs 15807
[ApostolNT] p. 181	Theorem 9.5	2lgs 15826  2lgsoddprm 15835
[ApostolNT] p. 182	Theorem 9.6	gausslemma2d 15791
[ApostolNT] p. 185	Theorem 9.8	lgsquad 15802
[ApostolNT] p. 188	Definition	df-lgs 15720  lgs1 15766
[ApostolNT] p. 188	Theorem 9.9(a)	lgsdir 15757
[ApostolNT] p. 188	Theorem 9.9(b)	lgsdi 15759
[ApostolNT] p. 188	Theorem 9.9(c)	lgsmodeq 15767
[ApostolNT] p. 188	Theorem 9.9(d)	lgsmulsqcoprm 15768
[Bauer] p. 482	Section 1.2	pm2.01 619  pm2.65 663
[Bauer] p. 483	Theorem 1.3	acexmid 6012  onsucelsucexmidlem 4625
[Bauer], p. 481	Section 1.1	pwtrufal 16548
[Bauer], p. 483	Definition	n0rf 3505
[Bauer], p. 483	Theorem 1.2	2irrexpq 15693  2irrexpqap 15695
[Bauer], p. 485	Theorem 2.1	exmidssfi 7125  ssfiexmid 7058  ssfiexmidt 7060
[Bauer], p. 493	Section 5.1	ivthdich 15370
[Bauer], p. 494	Theorem 5.5	ivthinc 15360
[BauerHanson], p. 27	Proposition 5.2	cnstab 8818
[BauerSwan], p. 14	Remark	0ct 7300  ctm 7302
[BauerSwan], p. 14	Proposition 2.6	subctctexmid 16551
[BauerSwan], p. 14	Table" is defined as ` ` per	enumct 7308
[BauerTaylor], p. 32	Lemma 6.16	prarloclem 7714
[BauerTaylor], p. 50	Lemma 11.4	subhalfnqq 7627
[BauerTaylor], p. 52	Proposition 11.15	prarloc 7716
[BauerTaylor], p. 53	Lemma 11.16	addclpr 7750  addlocpr 7749
[BauerTaylor], p. 55	Proposition 12.7	appdivnq 7776
[BauerTaylor], p. 56	Lemma 12.8	prmuloc 7779
[BauerTaylor], p. 56	Lemma 12.9	mullocpr 7784
[BellMachover] p. 36	Lemma 10.3	idALT 20
[BellMachover] p. 97	Definition 10.1	df-eu 2080
[BellMachover] p. 460	Notation	df-mo 2081
[BellMachover] p. 460	Definition	mo3 2132  mo3h 2131
[BellMachover] p. 462	Theorem 1.1	bm1.1 2214
[BellMachover] p. 463	Theorem 1.3ii	bm1.3ii 4208
[BellMachover] p. 466	Axiom Pow	axpow3 4265
[BellMachover] p. 466	Axiom Union	axun2 4530
[BellMachover] p. 469	Theorem 2.2(i)	ordirr 4638
[BellMachover] p. 469	Theorem 2.2(iii)	onelon 4479
[BellMachover] p. 469	Theorem 2.2(vii)	ordn2lp 4641
[BellMachover] p. 471	Problem 2.5(ii)	bm2.5ii 4592
[BellMachover] p. 471	Definition of Lim	df-ilim 4464
[BellMachover] p. 472	Axiom Inf	zfinf2 4685
[BellMachover] p. 473	Theorem 2.8	limom 4710
[Bobzien] p. 116	Statement T3	stoic3 1473
[Bobzien] p. 117	Statement T2	stoic2a 1471
[Bobzien] p. 117	Statement T4	stoic4a 1474
[Bobzien] p. 117	Conclusion the contradictory	stoic1a 1469
[Bollobas] p. 1	Section I.1	df-edg 15902  isuhgropm 15925  isusgropen 16009  isuspgropen 16008
[Bollobas] p. 4	Definition	df-wlks 16129
[Bollobas] p. 5	Definition	df-trls 16190
[Bollobas] p. 7	Section I.1	df-ushgrm 15914
[BourbakiAlg1] p. 1	Definition 1	df-mgm 13432
[BourbakiAlg1] p. 4	Definition 5	df-sgrp 13478
[BourbakiAlg1] p. 12	Definition 2	df-mnd 13493
[BourbakiAlg1] p. 92	Definition 1	df-ring 14004
[BourbakiAlg1] p. 93	Section I.8.1	df-rng 13939
[BourbakiEns] p.	Proposition 8	fcof1 5919  fcofo 5920
[BourbakiTop1] p.	Remark	xnegmnf 10057  xnegpnf 10056
[BourbakiTop1] p.	Remark	rexneg 10058
[BourbakiTop1] p.	Proposition	ishmeo 15021
[BourbakiTop1] p.	Property V_i	ssnei2 14874
[BourbakiTop1] p.	Property V_ii	innei 14880
[BourbakiTop1] p.	Property V_iv	neissex 14882
[BourbakiTop1] p.	Proposition 1	neipsm 14871  neiss 14867
[BourbakiTop1] p.	Proposition 2	cnptopco 14939
[BourbakiTop1] p.	Proposition 4	imasnopn 15016
[BourbakiTop1] p.	Property V_iii	elnei 14869
[BourbakiTop1] p.	Definition is due to Bourbaki (Def. 1	df-top 14715
[Bruck] p. 1	Section I.1	df-mgm 13432
[Bruck] p. 23	Section II.1	df-sgrp 13478
[Bruck] p. 28	Theorem 3.2	dfgrp3m 13675
[ChoquetDD] p. 2	Definition of mapping	df-mpt 4150
[Church] p. 129	Section II.24	df-ifp 984  dfifp2dc 987
[Cohen] p. 301	Remark	relogoprlem 15585
[Cohen] p. 301	Property 2	relogmul 15586  relogmuld 15601
[Cohen] p. 301	Property 3	relogdiv 15587  relogdivd 15602
[Cohen] p. 301	Property 4	relogexp 15589
[Cohen] p. 301	Property 1a	log1 15583
[Cohen] p. 301	Property 1b	loge 15584
[Cohen4] p. 348	Observation	relogbcxpbap 15682
[Cohen4] p. 352	Definition	rpelogb 15666
[Cohen4] p. 361	Property 2	rprelogbmul 15672
[Cohen4] p. 361	Property 3	logbrec 15677  rprelogbdiv 15674
[Cohen4] p. 361	Property 4	rplogbreexp 15670
[Cohen4] p. 361	Property 6	relogbexpap 15675
[Cohen4] p. 361	Property 1(a)	rplogbid1 15664
[Cohen4] p. 361	Property 1(b)	rplogb1 15665
[Cohen4] p. 367	Property	rplogbchbase 15667
[Cohen4] p. 377	Property 2	logblt 15679
[Crosilla] p.	Axiom 1	ax-ext 2211
[Crosilla] p.	Axiom 2	ax-pr 4297
[Crosilla] p.	Axiom 3	ax-un 4528
[Crosilla] p.	Axiom 4	ax-nul 4213
[Crosilla] p.	Axiom 5	ax-iinf 4684
[Crosilla] p.	Axiom 6	ru 3028
[Crosilla] p.	Axiom 8	ax-pow 4262
[Crosilla] p.	Axiom 9	ax-setind 4633
[Crosilla], p.	Axiom 6	ax-sep 4205
[Crosilla], p.	Axiom 7	ax-coll 4202
[Crosilla], p.	Axiom 7'	repizf 4203
[Crosilla], p.	Theorem is stated	ordtriexmid 4617
[Crosilla], p.	Axiom of choice implies instances	acexmid 6012
[Crosilla], p.	Definition of ordinal	df-iord 4461
[Crosilla], p.	Theorem "Foundation implies instances of EM"	regexmid 4631
[Diestel] p. 27	Section 1.10	df-ushgrm 15914
[Eisenberg] p. 67	Definition 5.3	df-dif 3200
[Eisenberg] p. 82	Definition 6.3	df-iom 4687
[Eisenberg] p. 125	Definition 8.21	df-map 6814
[Enderton] p. 18	Axiom of Empty Set	axnul 4212
[Enderton] p. 19	Definition	df-tp 3675
[Enderton] p. 26	Exercise 5	unissb 3921
[Enderton] p. 26	Exercise 10	pwel 4308
[Enderton] p. 28	Exercise 7(b)	pwunim 4381
[Enderton] p. 30	Theorem "Distributive laws"	iinin1m 4038  iinin2m 4037  iunin1 4033  iunin2 4032
[Enderton] p. 31	Theorem "De Morgan's laws"	iindif2m 4036  iundif2ss 4034
[Enderton] p. 33	Exercise 23	iinuniss 4051
[Enderton] p. 33	Exercise 25	iununir 4052
[Enderton] p. 33	Exercise 24(a)	iinpw 4059
[Enderton] p. 33	Exercise 24(b)	iunpw 4575  iunpwss 4060
[Enderton] p. 38	Exercise 6(a)	unipw 4307
[Enderton] p. 38	Exercise 6(b)	pwuni 4280
[Enderton] p. 41	Lemma 3D	opeluu 4545  rnex 4998  rnexg 4995
[Enderton] p. 41	Exercise 8	dmuni 4939  rnuni 5146
[Enderton] p. 42	Definition of a function	dffun7 5351  dffun8 5352
[Enderton] p. 43	Definition of function value	funfvdm2 5706
[Enderton] p. 43	Definition of single-rooted	funcnv 5388
[Enderton] p. 44	Definition (d)	dfima2 5076  dfima3 5077
[Enderton] p. 47	Theorem 3H	fvco2 5711
[Enderton] p. 49	Axiom of Choice (first form)	df-ac 7414
[Enderton] p. 50	Theorem 3K(a)	imauni 5897
[Enderton] p. 52	Definition	df-map 6814
[Enderton] p. 53	Exercise 21	coass 5253
[Enderton] p. 53	Exercise 27	dmco 5243
[Enderton] p. 53	Exercise 14(a)	funin 5398
[Enderton] p. 53	Exercise 22(a)	imass2 5110
[Enderton] p. 54	Remark	ixpf 6884  ixpssmap 6896
[Enderton] p. 54	Definition of infinite Cartesian product	df-ixp 6863
[Enderton] p. 56	Theorem 3M	erref 6717
[Enderton] p. 57	Lemma 3N	erthi 6745
[Enderton] p. 57	Definition	df-ec 6699
[Enderton] p. 58	Definition	df-qs 6703
[Enderton] p. 60	Theorem 3Q	th3q 6804  th3qcor 6803  th3qlem1 6801  th3qlem2 6802
[Enderton] p. 61	Exercise 35	df-ec 6699
[Enderton] p. 65	Exercise 56(a)	dmun 4936
[Enderton] p. 68	Definition of successor	df-suc 4466
[Enderton] p. 71	Definition	df-tr 4186  dftr4 4190
[Enderton] p. 72	Theorem 4E	unisuc 4508  unisucg 4509
[Enderton] p. 73	Exercise 6	unisuc 4508  unisucg 4509
[Enderton] p. 73	Exercise 5(a)	truni 4199
[Enderton] p. 73	Exercise 5(b)	trint 4200
[Enderton] p. 79	Theorem 4I(A1)	nna0 6637
[Enderton] p. 79	Theorem 4I(A2)	nnasuc 6639  onasuc 6629
[Enderton] p. 79	Definition of operation value	df-ov 6016
[Enderton] p. 80	Theorem 4J(A1)	nnm0 6638
[Enderton] p. 80	Theorem 4J(A2)	nnmsuc 6640  onmsuc 6636
[Enderton] p. 81	Theorem 4K(1)	nnaass 6648
[Enderton] p. 81	Theorem 4K(2)	nna0r 6641  nnacom 6647
[Enderton] p. 81	Theorem 4K(3)	nndi 6649
[Enderton] p. 81	Theorem 4K(4)	nnmass 6650
[Enderton] p. 81	Theorem 4K(5)	nnmcom 6652
[Enderton] p. 82	Exercise 16	nnm0r 6642  nnmsucr 6651
[Enderton] p. 88	Exercise 23	nnaordex 6691
[Enderton] p. 129	Definition	df-en 6905
[Enderton] p. 132	Theorem 6B(b)	canth 5964
[Enderton] p. 133	Exercise 1	xpomen 13009
[Enderton] p. 134	Theorem (Pigeonhole Principle)	phpm 7047
[Enderton] p. 136	Corollary 6E	nneneq 7038
[Enderton] p. 139	Theorem 6H(c)	mapen 7027
[Enderton] p. 142	Theorem 6I(3)	xpdjuen 7426
[Enderton] p. 143	Theorem 6J	dju0en 7422  dju1en 7421
[Enderton] p. 144	Corollary 6K	undif2ss 3568
[Enderton] p. 145	Figure 38	ffoss 5612
[Enderton] p. 145	Definition	df-dom 6906
[Enderton] p. 146	Example 1	domen 6917  domeng 6918
[Enderton] p. 146	Example 3	nndomo 7045
[Enderton] p. 149	Theorem 6L(c)	xpdom1 7014  xpdom1g 7012  xpdom2g 7011
[Enderton] p. 168	Definition	df-po 4391
[Enderton] p. 192	Theorem 7M(a)	oneli 4523
[Enderton] p. 192	Theorem 7M(b)	ontr1 4484
[Enderton] p. 192	Theorem 7M(c)	onirri 4639
[Enderton] p. 193	Corollary 7N(b)	0elon 4487
[Enderton] p. 193	Corollary 7N(c)	onsuci 4612
[Enderton] p. 193	Corollary 7N(d)	ssonunii 4585
[Enderton] p. 194	Remark	onprc 4648
[Enderton] p. 194	Exercise 16	suc11 4654
[Enderton] p. 197	Definition	df-card 7377
[Enderton] p. 200	Exercise 25	tfis 4679
[Enderton] p. 206	Theorem 7X(b)	en2lp 4650
[Enderton] p. 207	Exercise 34	opthreg 4652
[Enderton] p. 208	Exercise 35	suc11g 4653
[Geuvers], p. 1	Remark	expap0 10824
[Geuvers], p. 6	Lemma 2.13	mulap0r 8788
[Geuvers], p. 6	Lemma 2.15	mulap0 8827
[Geuvers], p. 9	Lemma 2.35	msqge0 8789
[Geuvers], p. 9	Definition 3.1(2)	ax-arch 8144
[Geuvers], p. 10	Lemma 3.9	maxcom 11757
[Geuvers], p. 10	Lemma 3.10	maxle1 11765  maxle2 11766
[Geuvers], p. 10	Lemma 3.11	maxleast 11767
[Geuvers], p. 10	Lemma 3.12	maxleb 11770
[Geuvers], p. 11	Definition 3.13	dfabsmax 11771
[Geuvers], p. 17	Definition 6.1	df-ap 8755
[Gleason] p. 117	Proposition 9-2.1	df-enq 7560  enqer 7571
[Gleason] p. 117	Proposition 9-2.2	df-1nqqs 7564  df-nqqs 7561
[Gleason] p. 117	Proposition 9-2.3	df-plpq 7557  df-plqqs 7562
[Gleason] p. 119	Proposition 9-2.4	df-mpq 7558  df-mqqs 7563
[Gleason] p. 119	Proposition 9-2.5	df-rq 7565
[Gleason] p. 119	Proposition 9-2.6	ltexnqq 7621
[Gleason] p. 120	Proposition 9-2.6(i)	halfnq 7624  ltbtwnnq 7629  ltbtwnnqq 7628
[Gleason] p. 120	Proposition 9-2.6(ii)	ltanqg 7613
[Gleason] p. 120	Proposition 9-2.6(iii)	ltmnqg 7614
[Gleason] p. 123	Proposition 9-3.5	addclpr 7750
[Gleason] p. 123	Proposition 9-3.5(i)	addassprg 7792
[Gleason] p. 123	Proposition 9-3.5(ii)	addcomprg 7791
[Gleason] p. 123	Proposition 9-3.5(iii)	ltaddpr 7810
[Gleason] p. 123	Proposition 9-3.5(iv)	ltexpri 7826
[Gleason] p. 123	Proposition 9-3.5(v)	ltaprg 7832  ltaprlem 7831
[Gleason] p. 123	Proposition 9-3.5(vi)	addcanprg 7829
[Gleason] p. 124	Proposition 9-3.7	mulclpr 7785
[Gleason] p. 124	Theorem 9-3.7(iv)	1idpr 7805
[Gleason] p. 124	Proposition 9-3.7(i)	mulassprg 7794
[Gleason] p. 124	Proposition 9-3.7(ii)	mulcomprg 7793
[Gleason] p. 124	Proposition 9-3.7(iii)	distrprg 7801
[Gleason] p. 124	Proposition 9-3.7(v)	recexpr 7851
[Gleason] p. 126	Proposition 9-4.1	df-enr 7939  enrer 7948
[Gleason] p. 126	Proposition 9-4.2	df-0r 7944  df-1r 7945  df-nr 7940
[Gleason] p. 126	Proposition 9-4.3	df-mr 7942  df-plr 7941  negexsr 7985  recexsrlem 7987
[Gleason] p. 127	Proposition 9-4.4	df-ltr 7943
[Gleason] p. 130	Proposition 10-1.3	creui 9133  creur 9132  cru 8775
[Gleason] p. 130	Definition 10-1.1(v)	ax-cnre 8136  axcnre 8094
[Gleason] p. 132	Definition 10-3.1	crim 11412  crimd 11531  crimi 11491  crre 11411  crred 11530  crrei 11490
[Gleason] p. 132	Definition 10-3.2	remim 11414  remimd 11496
[Gleason] p. 133	Definition 10.36	absval2 11611  absval2d 11739  absval2i 11698
[Gleason] p. 133	Proposition 10-3.4(a)	cjadd 11438  cjaddd 11519  cjaddi 11486
[Gleason] p. 133	Proposition 10-3.4(c)	cjmul 11439  cjmuld 11520  cjmuli 11487
[Gleason] p. 133	Proposition 10-3.4(e)	cjcj 11437  cjcjd 11497  cjcji 11469
[Gleason] p. 133	Proposition 10-3.4(f)	cjre 11436  cjreb 11420  cjrebd 11500  cjrebi 11472  cjred 11525  rere 11419  rereb 11417  rerebd 11499  rerebi 11471  rered 11523
[Gleason] p. 133	Proposition 10-3.4(h)	addcj 11445  addcjd 11511  addcji 11481
[Gleason] p. 133	Proposition 10-3.7(a)	absval 11555
[Gleason] p. 133	Proposition 10-3.7(b)	abscj 11606  abscjd 11744  abscji 11702
[Gleason] p. 133	Proposition 10-3.7(c)	abs00 11618  abs00d 11740  abs00i 11699  absne0d 11741
[Gleason] p. 133	Proposition 10-3.7(d)	releabs 11650  releabsd 11745  releabsi 11703
[Gleason] p. 133	Proposition 10-3.7(f)	absmul 11623  absmuld 11748  absmuli 11705
[Gleason] p. 133	Proposition 10-3.7(g)	sqabsadd 11609  sqabsaddi 11706
[Gleason] p. 133	Proposition 10-3.7(h)	abstri 11658  abstrid 11750  abstrii 11709
[Gleason] p. 134	Definition 10-4.1	df-exp 10794  exp0 10798  expp1 10801  expp1d 10929
[Gleason] p. 135	Proposition 10-4.2(a)	expadd 10836  expaddd 10930
[Gleason] p. 135	Proposition 10-4.2(b)	cxpmul 15629  cxpmuld 15654  expmul 10839  expmuld 10931
[Gleason] p. 135	Proposition 10-4.2(c)	mulexp 10833  mulexpd 10943  rpmulcxp 15626
[Gleason] p. 141	Definition 11-2.1	fzval 10238
[Gleason] p. 168	Proposition 12-2.1(a)	climadd 11880
[Gleason] p. 168	Proposition 12-2.1(b)	climsub 11882
[Gleason] p. 168	Proposition 12-2.1(c)	climmul 11881
[Gleason] p. 171	Corollary 12-2.2	climmulc2 11885
[Gleason] p. 172	Corollary 12-2.5	climrecl 11878
[Gleason] p. 172	Proposition 12-2.4(c)	climabs 11874  climcj 11875  climim 11877  climre 11876
[Gleason] p. 173	Definition 12-3.1	df-ltxr 8212  df-xr 8211  ltxr 10003
[Gleason] p. 180	Theorem 12-5.3	climcau 11901
[Gleason] p. 217	Lemma 13-4.1	btwnzge0 10553
[Gleason] p. 223	Definition 14-1.1	df-met 14552
[Gleason] p. 223	Definition 14-1.1(a)	met0 15081  xmet0 15080
[Gleason] p. 223	Definition 14-1.1(c)	metsym 15088
[Gleason] p. 223	Definition 14-1.1(d)	mettri 15090  mstri 15190  xmettri 15089  xmstri 15189
[Gleason] p. 230	Proposition 14-2.6	txlm 14996
[Gleason] p. 240	Proposition 14-4.2	metcnp3 15228
[Gleason] p. 243	Proposition 14-4.16	addcn2 11864  addcncntop 15279  mulcn2 11866  mulcncntop 15281  subcn2 11865  subcncntop 15280
[Gleason] p. 295	Remark	bcval3 11006  bcval4 11007
[Gleason] p. 295	Equation 2	bcpasc 11021
[Gleason] p. 295	Definition of binomial coefficient	bcval 11004  df-bc 11003
[Gleason] p. 296	Remark	bcn0 11010  bcnn 11012
[Gleason] p. 296	Theorem 15-2.8	binom 12038
[Gleason] p. 308	Equation 2	ef0 12226
[Gleason] p. 308	Equation 3	efcj 12227
[Gleason] p. 309	Corollary 15-4.3	efne0 12232
[Gleason] p. 309	Corollary 15-4.4	efexp 12236
[Gleason] p. 310	Equation 14	sinadd 12290
[Gleason] p. 310	Equation 15	cosadd 12291
[Gleason] p. 311	Equation 17	sincossq 12302
[Gleason] p. 311	Equation 18	cosbnd 12307  sinbnd 12306
[Gleason] p. 311	Definition of ` `	df-pi 12207
[Golan] p. 1	Remark	srgisid 13992
[Golan] p. 1	Definition	df-srg 13970
[Hamilton] p. 31	Example 2.7(a)	idALT 20
[Hamilton] p. 73	Rule 1	ax-mp 5
[Hamilton] p. 74	Rule 2	ax-gen 1495
[Herstein] p. 55	Lemma 2.2.1(a)	grpideu 13587  mndideu 13502
[Herstein] p. 55	Lemma 2.2.1(b)	grpinveu 13614
[Herstein] p. 55	Lemma 2.2.1(c)	grpinvinv 13643
[Herstein] p. 55	Lemma 2.2.1(d)	grpinvadd 13654
[Herstein] p. 57	Exercise 1	dfgrp3me 13676
[Heyting] p. 127	Axiom #1	ax1hfs 16628
[Hitchcock] p. 5	Rule A3	mptnan 1465
[Hitchcock] p. 5	Rule A4	mptxor 1466
[Hitchcock] p. 5	Rule A5	mtpxor 1468
[HoTT], p.	Lemma 10.4.1	exmidontriim 7433
[HoTT], p.	Theorem 7.2.6	nndceq 6662
[HoTT], p.	Exercise 11.10	neapmkv 16622
[HoTT], p.	Exercise 11.11	mulap0bd 8830
[HoTT], p.	Section 11.2.1	df-iltp 7683  df-imp 7682  df-iplp 7681  df-reap 8748
[HoTT], p.	Theorem 11.2.4	recapb 8844  rerecapb 9016
[HoTT], p.	Corollary 3.9.2	uchoice 6295
[HoTT], p.	Theorem 11.2.12	cauappcvgpr 7875
[HoTT], p.	Corollary 11.4.3	conventions 16267
[HoTT], p.	Exercise 11.6(i)	dcapnconst 16615  dceqnconst 16614
[HoTT], p.	Corollary 11.2.13	axcaucvg 8113  caucvgpr 7895  caucvgprpr 7925  caucvgsr 8015
[HoTT], p.	Definition 11.2.1	df-inp 7679
[HoTT], p.	Exercise 11.6(ii)	nconstwlpo 16620
[HoTT], p.	Proposition 11.2.3	df-iso 4392  ltpopr 7808  ltsopr 7809
[HoTT], p.	Definition 11.2.7(v)	apsym 8779  reapcotr 8771  reapirr 8750
[HoTT], p.	Definition 11.2.7(vi)	0lt1 8299  gt0add 8746  leadd1 8603  lelttr 8261  lemul1a 9031  lenlt 8248  ltadd1 8602  ltletr 8262  ltmul1 8765  reaplt 8761
[Huneke] p. 2	Statement	df-clwwlknon 16236
[Jech] p. 4	Definition of class	cv 1394  cvjust 2224
[Jech] p. 78	Note	opthprc 4775
[KalishMontague] p. 81	Note 1	ax-i9 1576
[Kreyszig] p. 3	Property M1	metcl 15070  xmetcl 15069
[Kreyszig] p. 4	Property M2	meteq0 15077
[Kreyszig] p. 12	Equation 5	muleqadd 8841
[Kreyszig] p. 18	Definition 1.3-2	mopnval 15159
[Kreyszig] p. 19	Remark	mopntopon 15160
[Kreyszig] p. 19	Theorem T1	mopn0 15205  mopnm 15165
[Kreyszig] p. 19	Theorem T2	unimopn 15203
[Kreyszig] p. 19	Definition of neighborhood	neibl 15208
[Kreyszig] p. 20	Definition 1.3-3	metcnp2 15230
[Kreyszig] p. 25	Definition 1.4-1	lmbr 14930
[Kreyszig] p. 51	Equation 2	lmodvneg1 14337
[Kreyszig] p. 51	Equation 1a	lmod0vs 14328
[Kreyszig] p. 51	Equation 1b	lmodvs0 14329
[Kunen] p. 10	Axiom 0	a9e 1742
[Kunen] p. 12	Axiom 6	zfrep6 4204
[Kunen] p. 24	Definition 10.24	mapval 6824  mapvalg 6822
[Kunen] p. 31	Definition 10.24	mapex 6818
[KuratowskiMostowski] p. 109	Section. Eq. 14	iuniin 3978
[Lang] p. 3	Statement	lidrideqd 13457  mndbn0 13507
[Lang] p. 3	Definition	df-mnd 13493
[Lang] p. 4	Definition of a (finite) product	gsumsplit1r 13474
[Lang] p. 5	Equation	gsumfzreidx 13917
[Lang] p. 6	Definition	mulgnn0gsum 13708
[Lang] p. 7	Definition	dfgrp2e 13604
[Levy] p. 338	Axiom	df-clab 2216  df-clel 2225  df-cleq 2222
[Lopez-Astorga] p. 12	Rule 1	mptnan 1465
[Lopez-Astorga] p. 12	Rule 2	mptxor 1466
[Lopez-Astorga] p. 12	Rule 3	mtpxor 1468
[Margaris] p. 40	Rule C	exlimiv 1644
[Margaris] p. 49	Axiom A1	ax-1 6
[Margaris] p. 49	Axiom A2	ax-2 7
[Margaris] p. 49	Axiom A3	condc 858
[Margaris] p. 49	Definition	dfbi2 388  dfordc 897  exalim 1548
[Margaris] p. 51	Theorem 1	idALT 20
[Margaris] p. 56	Theorem 3	syld 45
[Margaris] p. 60	Theorem 8	jcn 655
[Margaris] p. 89	Theorem 19.2	19.2 1684  r19.2m 3579
[Margaris] p. 89	Theorem 19.3	19.3 1600  19.3h 1599  rr19.3v 2943
[Margaris] p. 89	Theorem 19.5	alcom 1524
[Margaris] p. 89	Theorem 19.6	alexdc 1665  alexim 1691
[Margaris] p. 89	Theorem 19.7	alnex 1545
[Margaris] p. 89	Theorem 19.8	19.8a 1636  spsbe 1888
[Margaris] p. 89	Theorem 19.9	19.9 1690  19.9h 1689  19.9v 1917  exlimd 1643
[Margaris] p. 89	Theorem 19.11	excom 1710  excomim 1709
[Margaris] p. 89	Theorem 19.12	19.12 1711  r19.12 2637
[Margaris] p. 90	Theorem 19.14	exnalim 1692
[Margaris] p. 90	Theorem 19.15	albi 1514  ralbi 2663
[Margaris] p. 90	Theorem 19.16	19.16 1601
[Margaris] p. 90	Theorem 19.17	19.17 1602
[Margaris] p. 90	Theorem 19.18	exbi 1650  rexbi 2664
[Margaris] p. 90	Theorem 19.19	19.19 1712
[Margaris] p. 90	Theorem 19.20	alim 1503  alimd 1567  alimdh 1513  alimdv 1925  ralimdaa 2596  ralimdv 2598  ralimdva 2597  ralimdvva 2599  sbcimdv 3095
[Margaris] p. 90	Theorem 19.21	19.21-2 1713  19.21 1629  19.21bi 1604  19.21h 1603  19.21ht 1627  19.21t 1628  19.21v 1919  alrimd 1656  alrimdd 1655  alrimdh 1525  alrimdv 1922  alrimi 1568  alrimih 1515  alrimiv 1920  alrimivv 1921  r19.21 2606  r19.21be 2621  r19.21bi 2618  r19.21t 2605  r19.21v 2607  ralrimd 2608  ralrimdv 2609  ralrimdva 2610  ralrimdvv 2614  ralrimdvva 2615  ralrimi 2601  ralrimiv 2602  ralrimiva 2603  ralrimivv 2611  ralrimivva 2612  ralrimivvva 2613  ralrimivw 2604  rexlimi 2641
[Margaris] p. 90	Theorem 19.22	2alimdv 1927  2eximdv 1928  exim 1645  eximd 1658  eximdh 1657  eximdv 1926  rexim 2624  reximdai 2628  reximddv 2633  reximddv2 2635  reximdv 2631  reximdv2 2629  reximdva 2632  reximdvai 2630  reximi2 2626
[Margaris] p. 90	Theorem 19.23	19.23 1724  19.23bi 1638  19.23h 1544  19.23ht 1543  19.23t 1723  19.23v 1929  19.23vv 1930  exlimd2 1641  exlimdh 1642  exlimdv 1865  exlimdvv 1944  exlimi 1640  exlimih 1639  exlimiv 1644  exlimivv 1943  r19.23 2639  r19.23v 2640  rexlimd 2645  rexlimdv 2647  rexlimdv3a 2650  rexlimdva 2648  rexlimdva2 2651  rexlimdvaa 2649  rexlimdvv 2655  rexlimdvva 2656  rexlimdvw 2652  rexlimiv 2642  rexlimiva 2643  rexlimivv 2654
[Margaris] p. 90	Theorem 19.24	i19.24 1685
[Margaris] p. 90	Theorem 19.25	19.25 1672
[Margaris] p. 90	Theorem 19.26	19.26-2 1528  19.26-3an 1529  19.26 1527  r19.26-2 2660  r19.26-3 2661  r19.26 2657  r19.26m 2662
[Margaris] p. 90	Theorem 19.27	19.27 1607  19.27h 1606  19.27v 1946  r19.27av 2666  r19.27m 3588  r19.27mv 3589
[Margaris] p. 90	Theorem 19.28	19.28 1609  19.28h 1608  19.28v 1947  r19.28av 2667  r19.28m 3582  r19.28mv 3585  rr19.28v 2944
[Margaris] p. 90	Theorem 19.29	19.29 1666  19.29r 1667  19.29r2 1668  19.29x 1669  r19.29 2668  r19.29d2r 2675  r19.29r 2669
[Margaris] p. 90	Theorem 19.30	19.30dc 1673
[Margaris] p. 90	Theorem 19.31	19.31r 1727
[Margaris] p. 90	Theorem 19.32	19.32dc 1725  19.32r 1726  r19.32r 2677  r19.32vdc 2680  r19.32vr 2679
[Margaris] p. 90	Theorem 19.33	19.33 1530  19.33b2 1675  19.33bdc 1676
[Margaris] p. 90	Theorem 19.34	19.34 1730
[Margaris] p. 90	Theorem 19.35	19.35-1 1670  19.35i 1671
[Margaris] p. 90	Theorem 19.36	19.36-1 1719  19.36aiv 1948  19.36i 1718  r19.36av 2682
[Margaris] p. 90	Theorem 19.37	19.37-1 1720  19.37aiv 1721  r19.37 2683  r19.37av 2684
[Margaris] p. 90	Theorem 19.38	19.38 1722
[Margaris] p. 90	Theorem 19.39	i19.39 1686
[Margaris] p. 90	Theorem 19.40	19.40-2 1678  19.40 1677  r19.40 2685
[Margaris] p. 90	Theorem 19.41	19.41 1732  19.41h 1731  19.41v 1949  19.41vv 1950  19.41vvv 1951  19.41vvvv 1952  r19.41 2686  r19.41v 2687
[Margaris] p. 90	Theorem 19.42	19.42 1734  19.42h 1733  19.42v 1953  19.42vv 1958  19.42vvv 1959  19.42vvvv 1960  r19.42v 2688
[Margaris] p. 90	Theorem 19.43	19.43 1674  r19.43 2689
[Margaris] p. 90	Theorem 19.44	19.44 1728  r19.44av 2690  r19.44mv 3587
[Margaris] p. 90	Theorem 19.45	19.45 1729  r19.45av 2691  r19.45mv 3586
[Margaris] p. 110	Exercise 2(b)	eu1 2102
[Megill] p. 444	Axiom C5	ax-17 1572
[Megill] p. 445	Lemma L12	alequcom 1561  ax-10 1551
[Megill] p. 446	Lemma L17	equtrr 1756
[Megill] p. 446	Lemma L19	hbnae 1767
[Megill] p. 447	Remark 9.1	df-sb 1809  sbid 1820
[Megill] p. 448	Scheme C5'	ax-4 1556
[Megill] p. 448	Scheme C6'	ax-7 1494
[Megill] p. 448	Scheme C8'	ax-8 1550
[Megill] p. 448	Scheme C9'	ax-i12 1553
[Megill] p. 448	Scheme C11'	ax-10o 1762
[Megill] p. 448	Scheme C12'	ax-13 2202
[Megill] p. 448	Scheme C13'	ax-14 2203
[Megill] p. 448	Scheme C15'	ax-11o 1869
[Megill] p. 448	Scheme C16'	ax-16 1860
[Megill] p. 448	Theorem 9.4	dral1 1776  dral2 1777  drex1 1844  drex2 1778  drsb1 1845  drsb2 1887
[Megill] p. 449	Theorem 9.7	sbcom2 2038  sbequ 1886  sbid2v 2047
[Megill] p. 450	Example in Appendix	hba1 1586
[Mendelson] p. 36	Lemma 1.8	idALT 20
[Mendelson] p. 69	Axiom 4	rspsbc 3113  rspsbca 3114  stdpc4 1821
[Mendelson] p. 69	Axiom 5	ra5 3119  stdpc5 1630
[Mendelson] p. 81	Rule C	exlimiv 1644
[Mendelson] p. 95	Axiom 6	stdpc6 1749
[Mendelson] p. 95	Axiom 7	stdpc7 1816
[Mendelson] p. 231	Exercise 4.10(k)	inv1 3529
[Mendelson] p. 231	Exercise 4.10(l)	unv 3530
[Mendelson] p. 231	Exercise 4.10(n)	inssun 3445
[Mendelson] p. 231	Exercise 4.10(o)	df-nul 3493
[Mendelson] p. 231	Exercise 4.10(q)	inssddif 3446
[Mendelson] p. 231	Exercise 4.10(s)	ddifnel 3336
[Mendelson] p. 231	Definition of union	unssin 3444
[Mendelson] p. 235	Exercise 4.12(c)	univ 4571
[Mendelson] p. 235	Exercise 4.12(d)	pwv 3890
[Mendelson] p. 235	Exercise 4.12(j)	pwin 4377
[Mendelson] p. 235	Exercise 4.12(k)	pwunss 4378
[Mendelson] p. 235	Exercise 4.12(l)	pwssunim 4379
[Mendelson] p. 235	Exercise 4.12(n)	uniin 3911
[Mendelson] p. 235	Exercise 4.12(p)	reli 4857
[Mendelson] p. 235	Exercise 4.12(t)	relssdmrn 5255
[Mendelson] p. 246	Definition of successor	df-suc 4466
[Mendelson] p. 254	Proposition 4.22(b)	xpen 7026
[Mendelson] p. 254	Proposition 4.22(c)	xpsnen 7000  xpsneng 7001
[Mendelson] p. 254	Proposition 4.22(d)	xpcomen 7006  xpcomeng 7007
[Mendelson] p. 254	Proposition 4.22(e)	xpassen 7009
[Mendelson] p. 255	Exercise 4.39	endisj 7003
[Mendelson] p. 255	Exercise 4.41	mapprc 6816
[Mendelson] p. 255	Exercise 4.43	mapsnen 6981
[Mendelson] p. 255	Exercise 4.47	xpmapen 7031
[Mendelson] p. 255	Exercise 4.42(a)	map0e 6850
[Mendelson] p. 255	Exercise 4.42(b)	map1 6982
[Mendelson] p. 258	Exercise 4.56(c)	djuassen 7425  djucomen 7424
[Mendelson] p. 258	Exercise 4.56(g)	xp2dju 7423
[Mendelson] p. 266	Proposition 4.34(a)	oa1suc 6630
[Monk1] p. 26	Theorem 2.8(vii)	ssin 3427
[Monk1] p. 33	Theorem 3.2(i)	ssrel 4812
[Monk1] p. 33	Theorem 3.2(ii)	eqrel 4813
[Monk1] p. 34	Definition 3.3	df-opab 4149
[Monk1] p. 36	Theorem 3.7(i)	coi1 5250  coi2 5251
[Monk1] p. 36	Theorem 3.8(v)	dm0 4943  rn0 4986
[Monk1] p. 36	Theorem 3.7(ii)	cnvi 5139
[Monk1] p. 37	Theorem 3.13(i)	relxp 4833
[Monk1] p. 37	Theorem 3.13(x)	dmxpm 4950  rnxpm 5164
[Monk1] p. 37	Theorem 3.13(ii)	0xp 4804  xp0 5154
[Monk1] p. 38	Theorem 3.16(ii)	ima0 5093
[Monk1] p. 38	Theorem 3.16(viii)	imai 5090
[Monk1] p. 39	Theorem 3.17	imaex 5089  imaexg 5088
[Monk1] p. 39	Theorem 3.16(xi)	imassrn 5085
[Monk1] p. 41	Theorem 4.3(i)	fnopfv 5773  funfvop 5755
[Monk1] p. 42	Theorem 4.3(ii)	funopfvb 5683
[Monk1] p. 42	Theorem 4.4(iii)	fvelima 5693
[Monk1] p. 43	Theorem 4.6	funun 5368
[Monk1] p. 43	Theorem 4.8(iv)	dff13 5904  dff13f 5906
[Monk1] p. 46	Theorem 4.15(v)	funex 5872  funrnex 6271
[Monk1] p. 50	Definition 5.4	fniunfv 5898
[Monk1] p. 52	Theorem 5.12(ii)	op2ndb 5218
[Monk1] p. 52	Theorem 5.11(viii)	ssint 3942
[Monk1] p. 52	Definition 5.13 (i)	1stval2 6313  df-1st 6298
[Monk1] p. 52	Definition 5.13 (ii)	2ndval2 6314  df-2nd 6299
[Monk2] p. 105	Axiom C4	ax-5 1493
[Monk2] p. 105	Axiom C7	ax-8 1550
[Monk2] p. 105	Axiom C8	ax-11 1552  ax-11o 1869
[Monk2] p. 105	Axiom (C8)	ax11v 1873
[Monk2] p. 109	Lemma 12	ax-7 1494
[Monk2] p. 109	Lemma 15	equvin 1909  equvini 1804  eqvinop 4333
[Monk2] p. 113	Axiom C5-1	ax-17 1572
[Monk2] p. 113	Axiom C5-2	ax6b 1697
[Monk2] p. 113	Axiom C5-3	ax-7 1494
[Monk2] p. 114	Lemma 22	hba1 1586
[Monk2] p. 114	Lemma 23	hbia1 1598  nfia1 1626
[Monk2] p. 114	Lemma 24	hba2 1597  nfa2 1625
[Moschovakis] p. 2	Chapter 2	df-stab 836  dftest 16629
[Munkres] p. 77	Example 2	distop 14802
[Munkres] p. 78	Definition of basis	df-bases 14760  isbasis3g 14763
[Munkres] p. 78	Definition of a topology generated by a basis	df-topgen 13336  tgval2 14768
[Munkres] p. 79	Remark	tgcl 14781
[Munkres] p. 80	Lemma 2.1	tgval3 14775
[Munkres] p. 80	Lemma 2.2	tgss2 14796  tgss3 14795
[Munkres] p. 81	Lemma 2.3	basgen 14797  basgen2 14798
[Munkres] p. 89	Definition of subspace topology	resttop 14887
[Munkres] p. 93	Theorem 6.1(1)	0cld 14829  topcld 14826
[Munkres] p. 93	Theorem 6.1(3)	uncld 14830
[Munkres] p. 94	Definition of closure	clsval 14828
[Munkres] p. 94	Definition of interior	ntrval 14827
[Munkres] p. 102	Definition of continuous function	df-cn 14905  iscn 14914  iscn2 14917
[Munkres] p. 107	Theorem 7.2(g)	cncnp 14947  cncnp2m 14948  cncnpi 14945  df-cnp 14906  iscnp 14916
[Munkres] p. 127	Theorem 10.1	metcn 15231
[Pierik], p. 8	Section 2.2.1	dfrex2fin 7088
[Pierik], p. 9	Definition 2.4	df-womni 7357
[Pierik], p. 9	Definition 2.5	df-markov 7345  omniwomnimkv 7360
[Pierik], p. 10	Section 2.3	dfdif3 3315
[Pierik], p. 14	Definition 3.1	df-omni 7328  exmidomniim 7334  finomni 7333
[Pierik], p. 15	Section 3.1	df-nninf 7313
[Pradic2025], p. 2	Section 1.1	nnnninfen 16573
[PradicBrown2022], p. 1	Theorem 1	exmidsbthr 16577
[PradicBrown2022], p. 2	Remark	exmidpw 7095
[PradicBrown2022], p. 2	Proposition 1.1	exmidfodomrlemim 7405
[PradicBrown2022], p. 2	Proposition 1.2	exmidfodomrlemr 7406  exmidfodomrlemrALT 7407
[PradicBrown2022], p. 4	Lemma 3.2	fodjuomni 7342
[PradicBrown2022], p. 5	Lemma 3.4	peano3nninf 16559  peano4nninf 16558
[PradicBrown2022], p. 5	Lemma 3.5	nninfall 16561
[PradicBrown2022], p. 5	Theorem 3.6	nninfsel 16569
[PradicBrown2022], p. 5	Corollary 3.7	nninfomni 16571
[PradicBrown2022], p. 5	Definition 3.3	nnsf 16557
[Quine] p. 16	Definition 2.1	df-clab 2216  rabid 2707
[Quine] p. 17	Definition 2.1''	dfsb7 2042
[Quine] p. 18	Definition 2.7	df-cleq 2222
[Quine] p. 19	Definition 2.9	df-v 2802
[Quine] p. 34	Theorem 5.1	abeq2 2338
[Quine] p. 35	Theorem 5.2	abid2 2350  abid2f 2398
[Quine] p. 40	Theorem 6.1	sb5 1934
[Quine] p. 40	Theorem 6.2	sb56 1932  sb6 1933
[Quine] p. 41	Theorem 6.3	df-clel 2225
[Quine] p. 41	Theorem 6.4	eqid 2229
[Quine] p. 41	Theorem 6.5	eqcom 2231
[Quine] p. 42	Theorem 6.6	df-sbc 3030
[Quine] p. 42	Theorem 6.7	dfsbcq 3031  dfsbcq2 3032
[Quine] p. 43	Theorem 6.8	vex 2803
[Quine] p. 43	Theorem 6.9	isset 2807
[Quine] p. 44	Theorem 7.3	spcgf 2886  spcgv 2891  spcimgf 2884
[Quine] p. 44	Theorem 6.11	spsbc 3041  spsbcd 3042
[Quine] p. 44	Theorem 6.12	elex 2812
[Quine] p. 44	Theorem 6.13	elab 2948  elabg 2950  elabgf 2946
[Quine] p. 44	Theorem 6.14	noel 3496
[Quine] p. 48	Theorem 7.2	snprc 3732
[Quine] p. 48	Definition 7.1	df-pr 3674  df-sn 3673
[Quine] p. 49	Theorem 7.4	snss 3806  snssg 3805
[Quine] p. 49	Theorem 7.5	prss 3827  prssg 3828
[Quine] p. 49	Theorem 7.6	prid1 3775  prid1g 3773  prid2 3776  prid2g 3774  snid 3698  snidg 3696
[Quine] p. 51	Theorem 7.12	snexg 4272  snexprc 4274
[Quine] p. 51	Theorem 7.13	prexg 4299
[Quine] p. 53	Theorem 8.2	unisn 3907  unisng 3908
[Quine] p. 53	Theorem 8.3	uniun 3910
[Quine] p. 54	Theorem 8.6	elssuni 3919
[Quine] p. 54	Theorem 8.7	uni0 3918
[Quine] p. 56	Theorem 8.17	uniabio 5295
[Quine] p. 56	Definition 8.18	dfiota2 5285
[Quine] p. 57	Theorem 8.19	iotaval 5296
[Quine] p. 57	Theorem 8.22	iotanul 5300
[Quine] p. 58	Theorem 8.23	euiotaex 5301
[Quine] p. 58	Definition 9.1	df-op 3676
[Quine] p. 61	Theorem 9.5	opabid 4348  opabidw 4349  opelopab 4364  opelopaba 4358  opelopabaf 4366  opelopabf 4367  opelopabg 4360  opelopabga 4355  opelopabgf 4362  oprabid 6045
[Quine] p. 64	Definition 9.11	df-xp 4729
[Quine] p. 64	Definition 9.12	df-cnv 4731
[Quine] p. 64	Definition 9.15	df-id 4388
[Quine] p. 65	Theorem 10.3	fun0 5385
[Quine] p. 65	Theorem 10.4	funi 5356
[Quine] p. 65	Theorem 10.5	funsn 5375  funsng 5373
[Quine] p. 65	Definition 10.1	df-fun 5326
[Quine] p. 65	Definition 10.2	args 5103  dffv4g 5632
[Quine] p. 68	Definition 10.11	df-fv 5332  fv2 5630
[Quine] p. 124	Theorem 17.3	nn0opth2 10979  nn0opth2d 10978  nn0opthd 10977
[Quine] p. 284	Axiom 39(vi)	funimaex 5412  funimaexg 5411
[Roman] p. 18	Part Preliminaries	df-rng 13939
[Roman] p. 19	Part Preliminaries	df-ring 14004
[Rudin] p. 164	Equation 27	efcan 12230
[Rudin] p. 164	Equation 30	efzval 12237
[Rudin] p. 167	Equation 48	absefi 12323
[Sanford] p. 39	Remark	ax-mp 5
[Sanford] p. 39	Rule 3	mtpxor 1468
[Sanford] p. 39	Rule 4	mptxor 1466
[Sanford] p. 40	Rule 1	mptnan 1465
[Schechter] p. 51	Definition of antisymmetry	intasym 5119
[Schechter] p. 51	Definition of irreflexivity	intirr 5121
[Schechter] p. 51	Definition of symmetry	cnvsym 5118
[Schechter] p. 51	Definition of transitivity	cotr 5116
[Schechter] p. 187	Definition of "ring with unit"	isring 14006
[Schechter] p. 428	Definition 15.35	bastop1 14800
[Stoll] p. 13	Definition of symmetric difference	symdif1 3470
[Stoll] p. 16	Exercise 4.4	0dif 3564  dif0 3563
[Stoll] p. 16	Exercise 4.8	difdifdirss 3577
[Stoll] p. 19	Theorem 5.2(13)	undm 3463
[Stoll] p. 19	Theorem 5.2(13')	indmss 3464
[Stoll] p. 20	Remark	invdif 3447
[Stoll] p. 25	Definition of ordered triple	df-ot 3677
[Stoll] p. 43	Definition	uniiun 4022
[Stoll] p. 44	Definition	intiin 4023
[Stoll] p. 45	Definition	df-iin 3971
[Stoll] p. 45	Definition indexed union	df-iun 3970
[Stoll] p. 176	Theorem 3.4(27)	imandc 894  imanst 893
[Stoll] p. 262	Example 4.1	symdif1 3470
[Suppes] p. 22	Theorem 2	eq0 3511
[Suppes] p. 22	Theorem 4	eqss 3240  eqssd 3242  eqssi 3241
[Suppes] p. 23	Theorem 5	ss0 3533  ss0b 3532
[Suppes] p. 23	Theorem 6	sstr 3233
[Suppes] p. 25	Theorem 12	elin 3388  elun 3346
[Suppes] p. 26	Theorem 15	inidm 3414
[Suppes] p. 26	Theorem 16	in0 3527
[Suppes] p. 27	Theorem 23	unidm 3348
[Suppes] p. 27	Theorem 24	un0 3526
[Suppes] p. 27	Theorem 25	ssun1 3368
[Suppes] p. 27	Theorem 26	ssequn1 3375
[Suppes] p. 27	Theorem 27	unss 3379
[Suppes] p. 27	Theorem 28	indir 3454
[Suppes] p. 27	Theorem 29	undir 3455
[Suppes] p. 28	Theorem 32	difid 3561  difidALT 3562
[Suppes] p. 29	Theorem 33	difin 3442
[Suppes] p. 29	Theorem 34	indif 3448
[Suppes] p. 29	Theorem 35	undif1ss 3567
[Suppes] p. 29	Theorem 36	difun2 3572
[Suppes] p. 29	Theorem 37	difin0 3566
[Suppes] p. 29	Theorem 38	disjdif 3565
[Suppes] p. 29	Theorem 39	difundi 3457
[Suppes] p. 29	Theorem 40	difindiss 3459
[Suppes] p. 30	Theorem 41	nalset 4217
[Suppes] p. 39	Theorem 61	uniss 3912
[Suppes] p. 39	Theorem 65	uniop 4346
[Suppes] p. 41	Theorem 70	intsn 3961
[Suppes] p. 42	Theorem 71	intpr 3958  intprg 3959
[Suppes] p. 42	Theorem 73	op1stb 4573  op1stbg 4574
[Suppes] p. 42	Theorem 78	intun 3957
[Suppes] p. 44	Definition 15(a)	dfiun2 4002  dfiun2g 4000
[Suppes] p. 44	Definition 15(b)	dfiin2 4003
[Suppes] p. 47	Theorem 86	elpw 3656  elpw2 4245  elpw2g 4244  elpwg 3658
[Suppes] p. 47	Theorem 87	pwid 3665
[Suppes] p. 47	Theorem 89	pw0 3818
[Suppes] p. 48	Theorem 90	pwpw0ss 3886
[Suppes] p. 52	Theorem 101	xpss12 4831
[Suppes] p. 52	Theorem 102	xpindi 4863  xpindir 4864
[Suppes] p. 52	Theorem 103	xpundi 4780  xpundir 4781
[Suppes] p. 54	Theorem 105	elirrv 4644
[Suppes] p. 58	Theorem 2	relss 4811
[Suppes] p. 59	Theorem 4	eldm 4926  eldm2 4927  eldm2g 4925  eldmg 4924
[Suppes] p. 59	Definition 3	df-dm 4733
[Suppes] p. 60	Theorem 6	dmin 4937
[Suppes] p. 60	Theorem 8	rnun 5143
[Suppes] p. 60	Theorem 9	rnin 5144
[Suppes] p. 60	Definition 4	dfrn2 4916
[Suppes] p. 61	Theorem 11	brcnv 4911  brcnvg 4909
[Suppes] p. 62	Equation 5	elcnv 4905  elcnv2 4906
[Suppes] p. 62	Theorem 12	relcnv 5112
[Suppes] p. 62	Theorem 15	cnvin 5142
[Suppes] p. 62	Theorem 16	cnvun 5140
[Suppes] p. 63	Theorem 20	co02 5248
[Suppes] p. 63	Theorem 21	dmcoss 5000
[Suppes] p. 63	Definition 7	df-co 4732
[Suppes] p. 64	Theorem 26	cnvco 4913
[Suppes] p. 64	Theorem 27	coass 5253
[Suppes] p. 65	Theorem 31	resundi 5024
[Suppes] p. 65	Theorem 34	elima 5079  elima2 5080  elima3 5081  elimag 5078
[Suppes] p. 65	Theorem 35	imaundi 5147
[Suppes] p. 66	Theorem 40	dminss 5149
[Suppes] p. 66	Theorem 41	imainss 5150
[Suppes] p. 67	Exercise 11	cnvxp 5153
[Suppes] p. 81	Definition 34	dfec2 6700
[Suppes] p. 82	Theorem 72	elec 6738  elecg 6737
[Suppes] p. 82	Theorem 73	erth 6743  erth2 6744
[Suppes] p. 89	Theorem 96	map0b 6851
[Suppes] p. 89	Theorem 97	map0 6853  map0g 6852
[Suppes] p. 89	Theorem 98	mapsn 6854
[Suppes] p. 89	Theorem 99	mapss 6855
[Suppes] p. 92	Theorem 1	enref 6933  enrefg 6932
[Suppes] p. 92	Theorem 2	ensym 6950  ensymb 6949  ensymi 6951
[Suppes] p. 92	Theorem 3	entr 6953
[Suppes] p. 92	Theorem 4	unen 6986
[Suppes] p. 94	Theorem 15	endom 6931
[Suppes] p. 94	Theorem 16	ssdomg 6947
[Suppes] p. 94	Theorem 17	domtr 6954
[Suppes] p. 95	Theorem 18	isbth 7160
[Suppes] p. 98	Exercise 4	fundmen 6976  fundmeng 6977
[Suppes] p. 98	Exercise 6	xpdom3m 7013
[Suppes] p. 130	Definition 3	df-tr 4186
[Suppes] p. 132	Theorem 9	ssonuni 4584
[Suppes] p. 134	Definition 6	df-suc 4466
[Suppes] p. 136	Theorem Schema 22	findes 4699  finds 4696  finds1 4698  finds2 4697
[Suppes] p. 162	Definition 5	df-ltnqqs 7566  df-ltpq 7559
[Suppes] p. 228	Theorem Schema 61	onintss 4485
[TakeutiZaring] p. 8	Axiom 1	ax-ext 2211
[TakeutiZaring] p. 13	Definition 4.5	df-cleq 2222
[TakeutiZaring] p. 13	Proposition 4.6	df-clel 2225
[TakeutiZaring] p. 13	Proposition 4.9	cvjust 2224
[TakeutiZaring] p. 13	Proposition 4.7(3)	eqtr 2247
[TakeutiZaring] p. 14	Definition 4.16	df-oprab 6017
[TakeutiZaring] p. 14	Proposition 4.14	ru 3028
[TakeutiZaring] p. 15	Exercise 1	elpr 3688  elpr2 3689  elprg 3687
[TakeutiZaring] p. 15	Exercise 2	elsn 3683  elsn2 3701  elsn2g 3700  elsng 3682  velsn 3684
[TakeutiZaring] p. 15	Exercise 3	elop 4321
[TakeutiZaring] p. 15	Exercise 4	sneq 3678  sneqr 3841
[TakeutiZaring] p. 15	Definition 5.1	dfpr2 3686  dfsn2 3681
[TakeutiZaring] p. 16	Axiom 3	uniex 4532
[TakeutiZaring] p. 16	Exercise 6	opth 4327
[TakeutiZaring] p. 16	Exercise 8	rext 4305
[TakeutiZaring] p. 16	Corollary 5.8	unex 4536  unexg 4538
[TakeutiZaring] p. 16	Definition 5.3	dftp2 3716
[TakeutiZaring] p. 16	Definition 5.5	df-uni 3892
[TakeutiZaring] p. 16	Definition 5.6	df-in 3204  df-un 3202
[TakeutiZaring] p. 16	Proposition 5.7	unipr 3905  uniprg 3906
[TakeutiZaring] p. 17	Axiom 4	vpwex 4267
[TakeutiZaring] p. 17	Exercise 1	eltp 3715
[TakeutiZaring] p. 17	Exercise 5	elsuc 4501  elsucg 4499  sstr2 3232
[TakeutiZaring] p. 17	Exercise 6	uncom 3349
[TakeutiZaring] p. 17	Exercise 7	incom 3397
[TakeutiZaring] p. 17	Exercise 8	unass 3362
[TakeutiZaring] p. 17	Exercise 9	inass 3415
[TakeutiZaring] p. 17	Exercise 10	indi 3452
[TakeutiZaring] p. 17	Exercise 11	undi 3453
[TakeutiZaring] p. 17	Definition 5.9	ssalel 3213
[TakeutiZaring] p. 17	Definition 5.10	df-pw 3652
[TakeutiZaring] p. 18	Exercise 7	unss2 3376
[TakeutiZaring] p. 18	Exercise 9	df-ss 3211  dfss2 3215  sseqin2 3424
[TakeutiZaring] p. 18	Exercise 10	ssid 3245
[TakeutiZaring] p. 18	Exercise 12	inss1 3425  inss2 3426
[TakeutiZaring] p. 18	Exercise 13	nssr 3285
[TakeutiZaring] p. 18	Exercise 15	unieq 3900
[TakeutiZaring] p. 18	Exercise 18	sspwb 4306
[TakeutiZaring] p. 18	Exercise 19	pweqb 4313
[TakeutiZaring] p. 20	Definition	df-rab 2517
[TakeutiZaring] p. 20	Corollary 5.16	0ex 4214
[TakeutiZaring] p. 20	Definition 5.12	df-dif 3200
[TakeutiZaring] p. 20	Definition 5.14	dfnul2 3494
[TakeutiZaring] p. 20	Proposition 5.15	difid 3561  difidALT 3562
[TakeutiZaring] p. 20	Proposition 5.17(1)	n0rf 3505
[TakeutiZaring] p. 21	Theorem 5.22	setind 4635
[TakeutiZaring] p. 21	Definition 5.20	df-v 2802
[TakeutiZaring] p. 21	Proposition 5.21	vprc 4219
[TakeutiZaring] p. 22	Exercise 1	0ss 3531
[TakeutiZaring] p. 22	Exercise 3	ssex 4224  ssexg 4226
[TakeutiZaring] p. 22	Exercise 4	inex1 4221
[TakeutiZaring] p. 22	Exercise 5	ruv 4646
[TakeutiZaring] p. 22	Exercise 6	elirr 4637
[TakeutiZaring] p. 22	Exercise 7	ssdif0im 3557
[TakeutiZaring] p. 22	Exercise 11	difdif 3330
[TakeutiZaring] p. 22	Exercise 13	undif3ss 3466
[TakeutiZaring] p. 22	Exercise 14	difss 3331
[TakeutiZaring] p. 22	Exercise 15	sscon 3339
[TakeutiZaring] p. 22	Definition 4.15(3)	df-ral 2513
[TakeutiZaring] p. 22	Definition 4.15(4)	df-rex 2514
[TakeutiZaring] p. 23	Proposition 6.2	xpex 4840  xpexg 4838  xpexgALT 6290
[TakeutiZaring] p. 23	Definition 6.4(1)	df-rel 4730
[TakeutiZaring] p. 23	Definition 6.4(2)	fun2cnv 5391
[TakeutiZaring] p. 24	Definition 6.4(3)	f1cnvcnv 5550  fun11 5394
[TakeutiZaring] p. 24	Definition 6.4(4)	dffun4 5335  svrelfun 5392
[TakeutiZaring] p. 24	Definition 6.5(1)	dfdm3 4915
[TakeutiZaring] p. 24	Definition 6.5(2)	dfrn3 4917
[TakeutiZaring] p. 24	Definition 6.6(1)	df-res 4735
[TakeutiZaring] p. 24	Definition 6.6(2)	df-ima 4736
[TakeutiZaring] p. 24	Definition 6.6(3)	df-co 4732
[TakeutiZaring] p. 25	Exercise 2	cnvcnvss 5189  dfrel2 5185
[TakeutiZaring] p. 25	Exercise 3	xpss 4832
[TakeutiZaring] p. 25	Exercise 5	relun 4842
[TakeutiZaring] p. 25	Exercise 6	reluni 4848
[TakeutiZaring] p. 25	Exercise 9	inxp 4862
[TakeutiZaring] p. 25	Exercise 12	relres 5039
[TakeutiZaring] p. 25	Exercise 13	opelres 5016  opelresg 5018
[TakeutiZaring] p. 25	Exercise 14	dmres 5032
[TakeutiZaring] p. 25	Exercise 15	resss 5035
[TakeutiZaring] p. 25	Exercise 17	resabs1 5040
[TakeutiZaring] p. 25	Exercise 18	funres 5365
[TakeutiZaring] p. 25	Exercise 24	relco 5233
[TakeutiZaring] p. 25	Exercise 29	funco 5364
[TakeutiZaring] p. 25	Exercise 30	f1co 5551
[TakeutiZaring] p. 26	Definition 6.10	eu2 2122
[TakeutiZaring] p. 26	Definition 6.11	df-fv 5332  fv3 5658
[TakeutiZaring] p. 26	Corollary 6.8(1)	cnvex 5273  cnvexg 5272
[TakeutiZaring] p. 26	Corollary 6.8(2)	dmex 4997  dmexg 4994
[TakeutiZaring] p. 26	Corollary 6.8(3)	rnex 4998  rnexg 4995
[TakeutiZaring] p. 27	Corollary 6.13	funfvex 5652
[TakeutiZaring] p. 27	Theorem 6.12(1)	tz6.12-1 5662  tz6.12 5663  tz6.12c 5665
[TakeutiZaring] p. 27	Theorem 6.12(2)	tz6.12-2 5626
[TakeutiZaring] p. 27	Definition 6.15(1)	df-fn 5327
[TakeutiZaring] p. 27	Definition 6.15(3)	df-f 5328
[TakeutiZaring] p. 27	Definition 6.15(4)	df-fo 5330  wfo 5322
[TakeutiZaring] p. 27	Definition 6.15(5)	df-f1 5329  wf1 5321
[TakeutiZaring] p. 27	Definition 6.15(6)	df-f1o 5331  wf1o 5323
[TakeutiZaring] p. 28	Exercise 4	eqfnfv 5740  eqfnfv2 5741  eqfnfv2f 5744
[TakeutiZaring] p. 28	Exercise 5	fvco 5712
[TakeutiZaring] p. 28	Theorem 6.16(1)	fnex 5871  fnexALT 6268
[TakeutiZaring] p. 28	Proposition 6.17	resfunexg 5870  resfunexgALT 6265
[TakeutiZaring] p. 29	Exercise 9	funimaex 5412  funimaexg 5411
[TakeutiZaring] p. 29	Definition 6.18	df-br 4087
[TakeutiZaring] p. 30	Definition 6.21	eliniseg 5104  iniseg 5106
[TakeutiZaring] p. 30	Definition 6.22	df-eprel 4384
[TakeutiZaring] p. 32	Definition 6.28	df-isom 5333
[TakeutiZaring] p. 33	Proposition 6.30(1)	isoid 5946
[TakeutiZaring] p. 33	Proposition 6.30(2)	isocnv 5947
[TakeutiZaring] p. 33	Proposition 6.30(3)	isotr 5952
[TakeutiZaring] p. 33	Proposition 6.31(2)	isoini 5954
[TakeutiZaring] p. 34	Proposition 6.33	f1oiso 5962
[TakeutiZaring] p. 35	Notation	wtr 4185
[TakeutiZaring] p. 35	Theorem 7.2	tz7.2 4449
[TakeutiZaring] p. 35	Definition 7.1	dftr3 4189
[TakeutiZaring] p. 36	Proposition 7.4	ordwe 4672
[TakeutiZaring] p. 36	Proposition 7.6	ordelord 4476
[TakeutiZaring] p. 37	Proposition 7.9	ordin 4480
[TakeutiZaring] p. 38	Corollary 7.15	ordsson 4588
[TakeutiZaring] p. 38	Definition 7.11	df-on 4463
[TakeutiZaring] p. 38	Proposition 7.12	ordon 4582
[TakeutiZaring] p. 38	Proposition 7.13	onprc 4648
[TakeutiZaring] p. 39	Theorem 7.17	tfi 4678
[TakeutiZaring] p. 40	Exercise 7	dftr2 4187
[TakeutiZaring] p. 40	Exercise 11	unon 4607
[TakeutiZaring] p. 40	Proposition 7.19	ssorduni 4583
[TakeutiZaring] p. 40	Proposition 7.20	elssuni 3919
[TakeutiZaring] p. 41	Definition 7.22	df-suc 4466
[TakeutiZaring] p. 41	Proposition 7.23	sssucid 4510  sucidg 4511
[TakeutiZaring] p. 41	Proposition 7.24	onsuc 4597
[TakeutiZaring] p. 42	Exercise 1	df-ilim 4464
[TakeutiZaring] p. 42	Exercise 8	onsucssi 4602  ordelsuc 4601
[TakeutiZaring] p. 42	Proposition 7.30(1)	peano1 4690
[TakeutiZaring] p. 42	Proposition 7.30(2)	peano2 4691
[TakeutiZaring] p. 42	Proposition 7.30(3)	peano3 4692
[TakeutiZaring] p. 43	Axiom 7	omex 4689
[TakeutiZaring] p. 43	Theorem 7.32	ordom 4703
[TakeutiZaring] p. 43	Corollary 7.31	find 4695
[TakeutiZaring] p. 43	Proposition 7.30(4)	peano4 4693
[TakeutiZaring] p. 43	Proposition 7.30(5)	peano5 4694
[TakeutiZaring] p. 44	Exercise 2	int0 3940
[TakeutiZaring] p. 44	Exercise 3	trintssm 4201
[TakeutiZaring] p. 44	Exercise 4	intss1 3941
[TakeutiZaring] p. 44	Exercise 6	onintonm 4613
[TakeutiZaring] p. 44	Definition 7.35	df-int 3927
[TakeutiZaring] p. 47	Lemma 1	tfrlem1 6469
[TakeutiZaring] p. 47	Theorem 7.41(1)	tfri1 6526  tfri1d 6496
[TakeutiZaring] p. 47	Theorem 7.41(2)	tfri2 6527  tfri2d 6497
[TakeutiZaring] p. 47	Theorem 7.41(3)	tfri3 6528
[TakeutiZaring] p. 50	Exercise 3	smoiso 6463
[TakeutiZaring] p. 50	Definition 7.46	df-smo 6447
[TakeutiZaring] p. 56	Definition 8.1	oasuc 6627
[TakeutiZaring] p. 57	Proposition 8.2	oacl 6623
[TakeutiZaring] p. 57	Proposition 8.3	oa0 6620
[TakeutiZaring] p. 57	Proposition 8.16	omcl 6624
[TakeutiZaring] p. 58	Proposition 8.4	nnaord 6672  nnaordi 6671
[TakeutiZaring] p. 59	Proposition 8.6	iunss2 4013  uniss2 3922
[TakeutiZaring] p. 59	Proposition 8.7	oawordriexmid 6633
[TakeutiZaring] p. 59	Proposition 8.9	nnacl 6643
[TakeutiZaring] p. 62	Exercise 5	oaword1 6634
[TakeutiZaring] p. 62	Definition 8.15	om0 6621  omsuc 6635
[TakeutiZaring] p. 63	Proposition 8.17	nnmcl 6644
[TakeutiZaring] p. 63	Proposition 8.19	nnmord 6680  nnmordi 6679
[TakeutiZaring] p. 67	Definition 8.30	oei0 6622
[TakeutiZaring] p. 85	Proposition 10.6(3)	cardonle 7385
[TakeutiZaring] p. 88	Exercise 1	en0 6964
[TakeutiZaring] p. 90	Proposition 10.20	nneneq 7038
[TakeutiZaring] p. 90	Corollary 10.21(1)	php5 7039
[TakeutiZaring] p. 91	Definition 10.29	df-fin 6907  isfi 6929
[TakeutiZaring] p. 92	Proposition 10.33(2)	xpdom2 7010
[TakeutiZaring] p. 95	Definition 10.42	df-map 6814
[TakeutiZaring] p. 96	Proposition 10.44	pw2f1odc 7016
[TakeutiZaring] p. 96	Proposition 10.45	mapxpen 7029
[Tarski] p. 67	Axiom B5	ax-4 1556
[Tarski] p. 68	Lemma 6	equid 1747
[Tarski] p. 69	Lemma 7	equcomi 1750
[Tarski] p. 70	Lemma 14	spim 1784  spime 1787  spimeh 1785  spimh 1783
[Tarski] p. 70	Lemma 16	ax-11 1552  ax-11o 1869  ax11i 1760
[Tarski] p. 70	Lemmas 16 and 17	sb6 1933
[Tarski] p. 77	Axiom B6 (p. 75) of system S2	ax-17 1572
[Tarski] p. 77	Axiom B8 (p. 75) of system S2	ax-13 2202  ax-14 2203
[WhiteheadRussell] p. 96	Axiom *1.3	olc 716
[WhiteheadRussell] p. 96	Axiom *1.4	pm1.4 732
[WhiteheadRussell] p. 96	Axiom *1.2 (Taut)	pm1.2 761
[WhiteheadRussell] p. 96	Axiom *1.5 (Assoc)	pm1.5 770
[WhiteheadRussell] p. 97	Axiom *1.6 (Sum)	orim2 794
[WhiteheadRussell] p. 100	Theorem *2.01	pm2.01 619
[WhiteheadRussell] p. 100	Theorem *2.02	ax-1 6
[WhiteheadRussell] p. 100	Theorem *2.03	con2 646
[WhiteheadRussell] p. 100	Theorem *2.04	pm2.04 82
[WhiteheadRussell] p. 100	Theorem *2.05	imim2 55
[WhiteheadRussell] p. 100	Theorem *2.06	imim1 76
[WhiteheadRussell] p. 101	Theorem *2.1	pm2.1dc 842
[WhiteheadRussell] p. 101	Theorem *2.06	barbara 2176  syl 14
[WhiteheadRussell] p. 101	Theorem *2.07	pm2.07 742
[WhiteheadRussell] p. 101	Theorem *2.08	id 19  idALT 20
[WhiteheadRussell] p. 101	Theorem *2.11	exmiddc 841
[WhiteheadRussell] p. 101	Theorem *2.12	notnot 632
[WhiteheadRussell] p. 101	Theorem *2.13	pm2.13dc 890
[WhiteheadRussell] p. 102	Theorem *2.14	notnotrdc 848
[WhiteheadRussell] p. 102	Theorem *2.15	con1dc 861
[WhiteheadRussell] p. 103	Theorem *2.16	con3 645
[WhiteheadRussell] p. 103	Theorem *2.17	condc 858
[WhiteheadRussell] p. 103	Theorem *2.18	pm2.18dc 860
[WhiteheadRussell] p. 104	Theorem *2.2	orc 717
[WhiteheadRussell] p. 104	Theorem *2.3	pm2.3 780
[WhiteheadRussell] p. 104	Theorem *2.21	pm2.21 620
[WhiteheadRussell] p. 104	Theorem *2.24	pm2.24 624
[WhiteheadRussell] p. 104	Theorem *2.25	pm2.25dc 898
[WhiteheadRussell] p. 104	Theorem *2.26	pm2.26dc 912
[WhiteheadRussell] p. 104	Theorem *2.27	pm2.27 40
[WhiteheadRussell] p. 104	Theorem *2.31	pm2.31 773
[WhiteheadRussell] p. 105	Theorem *2.32	pm2.32 774
[WhiteheadRussell] p. 105	Theorem *2.36	pm2.36 809
[WhiteheadRussell] p. 105	Theorem *2.37	pm2.37 810
[WhiteheadRussell] p. 105	Theorem *2.38	pm2.38 808
[WhiteheadRussell] p. 105	Definition *2.33	df-3or 1003
[WhiteheadRussell] p. 106	Theorem *2.4	pm2.4 783
[WhiteheadRussell] p. 106	Theorem *2.41	pm2.41 781
[WhiteheadRussell] p. 106	Theorem *2.42	pm2.42 782
[WhiteheadRussell] p. 106	Theorem *2.43	pm2.43 53
[WhiteheadRussell] p. 106	Theorem *2.45	pm2.45 743
[WhiteheadRussell] p. 106	Theorem *2.46	pm2.46 744
[WhiteheadRussell] p. 107	Theorem *2.5	pm2.5dc 872  pm2.5gdc 871
[WhiteheadRussell] p. 107	Theorem *2.6	pm2.6dc 867
[WhiteheadRussell] p. 107	Theorem *2.47	pm2.47 745
[WhiteheadRussell] p. 107	Theorem *2.48	pm2.48 746
[WhiteheadRussell] p. 107	Theorem *2.49	pm2.49 747
[WhiteheadRussell] p. 107	Theorem *2.51	pm2.51 659
[WhiteheadRussell] p. 107	Theorem *2.52	pm2.52 660
[WhiteheadRussell] p. 107	Theorem *2.53	pm2.53 727
[WhiteheadRussell] p. 107	Theorem *2.54	pm2.54dc 896
[WhiteheadRussell] p. 107	Theorem *2.55	orel1 730
[WhiteheadRussell] p. 107	Theorem *2.56	orel2 731
[WhiteheadRussell] p. 107	Theorem *2.61	pm2.61dc 870
[WhiteheadRussell] p. 107	Theorem *2.62	pm2.62 753
[WhiteheadRussell] p. 107	Theorem *2.63	pm2.63 805
[WhiteheadRussell] p. 107	Theorem *2.64	pm2.64 806
[WhiteheadRussell] p. 107	Theorem *2.65	pm2.65 663
[WhiteheadRussell] p. 107	Theorem *2.67	pm2.67-2 718  pm2.67 748
[WhiteheadRussell] p. 107	Theorem *2.521	pm2.521dc 874  pm2.521gdc 873
[WhiteheadRussell] p. 107	Theorem *2.621	pm2.621 752
[WhiteheadRussell] p. 108	Theorem *2.8	pm2.8 815
[WhiteheadRussell] p. 108	Theorem *2.68	pm2.68dc 899
[WhiteheadRussell] p. 108	Theorem *2.69	looinvdc 920
[WhiteheadRussell] p. 108	Theorem *2.73	pm2.73 811
[WhiteheadRussell] p. 108	Theorem *2.74	pm2.74 812
[WhiteheadRussell] p. 108	Theorem *2.75	pm2.75 814
[WhiteheadRussell] p. 108	Theorem *2.76	pm2.76 813
[WhiteheadRussell] p. 108	Theorem *2.77	ax-2 7
[WhiteheadRussell] p. 108	Theorem *2.81	pm2.81 816
[WhiteheadRussell] p. 108	Theorem *2.82	pm2.82 817
[WhiteheadRussell] p. 108	Theorem *2.83	pm2.83 77
[WhiteheadRussell] p. 108	Theorem *2.85	pm2.85dc 910
[WhiteheadRussell] p. 108	Theorem *2.86	pm2.86 101
[WhiteheadRussell] p. 111	Theorem *3.1	pm3.1 759
[WhiteheadRussell] p. 111	Theorem *3.2	pm3.2 139
[WhiteheadRussell] p. 111	Theorem *3.11	pm3.11dc 963
[WhiteheadRussell] p. 111	Theorem *3.12	pm3.12dc 964
[WhiteheadRussell] p. 111	Theorem *3.13	pm3.13dc 965
[WhiteheadRussell] p. 111	Theorem *3.14	pm3.14 758
[WhiteheadRussell] p. 111	Theorem *3.21	pm3.21 264
[WhiteheadRussell] p. 111	Theorem *3.22	pm3.22 265
[WhiteheadRussell] p. 111	Theorem *3.24	pm3.24 698
[WhiteheadRussell] p. 112	Theorem *3.35	pm3.35 347
[WhiteheadRussell] p. 112	Theorem *3.3 (Exp)	pm3.3 261
[WhiteheadRussell] p. 112	Theorem *3.31 (Imp)	pm3.31 262
[WhiteheadRussell] p. 112	Theorem *3.26 (Simp)	simpl 109  simplimdc 865
[WhiteheadRussell] p. 112	Theorem *3.27 (Simp)	simpr 110  simprimdc 864
[WhiteheadRussell] p. 112	Theorem *3.33 (Syll)	pm3.33 345
[WhiteheadRussell] p. 112	Theorem *3.34 (Syll)	pm3.34 346
[WhiteheadRussell] p. 112	Theorem *3.37 (Transp)	pm3.37 693
[WhiteheadRussell] p. 113	Fact)	pm3.45 599
[WhiteheadRussell] p. 113	Theorem *3.4	pm3.4 333
[WhiteheadRussell] p. 113	Theorem *3.41	pm3.41 331
[WhiteheadRussell] p. 113	Theorem *3.42	pm3.42 332
[WhiteheadRussell] p. 113	Theorem *3.44	jao 760  pm3.44 720
[WhiteheadRussell] p. 113	Theorem *3.47	anim12 344
[WhiteheadRussell] p. 113	Theorem *3.43 (Comp)	pm3.43 604
[WhiteheadRussell] p. 114	Theorem *3.48	pm3.48 790
[WhiteheadRussell] p. 116	Theorem *4.1	con34bdc 876
[WhiteheadRussell] p. 117	Theorem *4.2	biid 171
[WhiteheadRussell] p. 117	Theorem *4.13	notnotbdc 877
[WhiteheadRussell] p. 117	Theorem *4.14	pm4.14dc 895
[WhiteheadRussell] p. 117	Theorem *4.15	pm4.15 699
[WhiteheadRussell] p. 117	Theorem *4.21	bicom 140
[WhiteheadRussell] p. 117	Theorem *4.22	biantr 958  bitr 472
[WhiteheadRussell] p. 117	Theorem *4.24	pm4.24 395
[WhiteheadRussell] p. 117	Theorem *4.25	oridm 762  pm4.25 763
[WhiteheadRussell] p. 118	Theorem *4.3	ancom 266
[WhiteheadRussell] p. 118	Theorem *4.4	andi 823
[WhiteheadRussell] p. 118	Theorem *4.31	orcom 733
[WhiteheadRussell] p. 118	Theorem *4.32	anass 401
[WhiteheadRussell] p. 118	Theorem *4.33	orass 772
[WhiteheadRussell] p. 118	Theorem *4.36	anbi1 466
[WhiteheadRussell] p. 118	Theorem *4.37	orbi1 797
[WhiteheadRussell] p. 118	Theorem *4.38	pm4.38 607
[WhiteheadRussell] p. 118	Theorem *4.39	pm4.39 827
[WhiteheadRussell] p. 118	Definition *4.34	df-3an 1004
[WhiteheadRussell] p. 119	Theorem *4.41	ordi 821
[WhiteheadRussell] p. 119	Theorem *4.42	pm4.42r 977
[WhiteheadRussell] p. 119	Theorem *4.43	pm4.43 955
[WhiteheadRussell] p. 119	Theorem *4.44	pm4.44 784
[WhiteheadRussell] p. 119	Theorem *4.45	orabs 819  pm4.45 789  pm4.45im 334
[WhiteheadRussell] p. 119	Theorem *10.22	19.26 1527
[WhiteheadRussell] p. 120	Theorem *4.5	anordc 962
[WhiteheadRussell] p. 120	Theorem *4.6	imordc 902  imorr 726
[WhiteheadRussell] p. 120	Theorem *4.7	anclb 319
[WhiteheadRussell] p. 120	Theorem *4.51	ianordc 904
[WhiteheadRussell] p. 120	Theorem *4.52	pm4.52im 755
[WhiteheadRussell] p. 120	Theorem *4.53	pm4.53r 756
[WhiteheadRussell] p. 120	Theorem *4.54	pm4.54dc 907
[WhiteheadRussell] p. 120	Theorem *4.55	pm4.55dc 944
[WhiteheadRussell] p. 120	Theorem *4.56	ioran 757  pm4.56 785
[WhiteheadRussell] p. 120	Theorem *4.57	orandc 945  oranim 786
[WhiteheadRussell] p. 120	Theorem *4.61	annimim 690
[WhiteheadRussell] p. 120	Theorem *4.62	pm4.62dc 903
[WhiteheadRussell] p. 120	Theorem *4.63	pm4.63dc 891
[WhiteheadRussell] p. 120	Theorem *4.64	pm4.64dc 905
[WhiteheadRussell] p. 120	Theorem *4.65	pm4.65r 691
[WhiteheadRussell] p. 120	Theorem *4.66	pm4.66dc 906
[WhiteheadRussell] p. 120	Theorem *4.67	pm4.67dc 892
[WhiteheadRussell] p. 120	Theorem *4.71	pm4.71 389  pm4.71d 393  pm4.71i 391  pm4.71r 390  pm4.71rd 394  pm4.71ri 392
[WhiteheadRussell] p. 121	Theorem *4.72	pm4.72 832
[WhiteheadRussell] p. 121	Theorem *4.73	iba 300
[WhiteheadRussell] p. 121	Theorem *4.74	biorf 749
[WhiteheadRussell] p. 121	Theorem *4.76	jcab 605  pm4.76 606
[WhiteheadRussell] p. 121	Theorem *4.77	jaob 715  pm4.77 804
[WhiteheadRussell] p. 121	Theorem *4.78	pm4.78i 787
[WhiteheadRussell] p. 121	Theorem *4.79	pm4.79dc 908
[WhiteheadRussell] p. 122	Theorem *4.8	pm4.8 712
[WhiteheadRussell] p. 122	Theorem *4.81	pm4.81dc 913
[WhiteheadRussell] p. 122	Theorem *4.82	pm4.82 956
[WhiteheadRussell] p. 122	Theorem *4.83	pm4.83dc 957
[WhiteheadRussell] p. 122	Theorem *4.84	imbi1 236
[WhiteheadRussell] p. 122	Theorem *4.85	imbi2 237
[WhiteheadRussell] p. 122	Theorem *4.86	bibi1 240
[WhiteheadRussell] p. 122	Theorem *4.87	bi2.04 248  impexp 263  pm4.87 557
[WhiteheadRussell] p. 123	Theorem *5.1	pm5.1 603
[WhiteheadRussell] p. 123	Theorem *5.11	pm5.11dc 914
[WhiteheadRussell] p. 123	Theorem *5.12	pm5.12dc 915
[WhiteheadRussell] p. 123	Theorem *5.13	pm5.13dc 917
[WhiteheadRussell] p. 123	Theorem *5.14	pm5.14dc 916
[WhiteheadRussell] p. 124	Theorem *5.15	pm5.15dc 1431
[WhiteheadRussell] p. 124	Theorem *5.16	pm5.16 833
[WhiteheadRussell] p. 124	Theorem *5.17	pm5.17dc 909
[WhiteheadRussell] p. 124	Theorem *5.18	nbbndc 1436  pm5.18dc 888
[WhiteheadRussell] p. 124	Theorem *5.19	pm5.19 711
[WhiteheadRussell] p. 124	Theorem *5.21	pm5.21 700
[WhiteheadRussell] p. 124	Theorem *5.22	xordc 1434
[WhiteheadRussell] p. 124	Theorem *5.23	dfbi3dc 1439
[WhiteheadRussell] p. 124	Theorem *5.24	pm5.24dc 1440
[WhiteheadRussell] p. 124	Theorem *5.25	dfor2dc 900
[WhiteheadRussell] p. 125	Theorem *5.3	pm5.3 475
[WhiteheadRussell] p. 125	Theorem *5.4	pm5.4 249
[WhiteheadRussell] p. 125	Theorem *5.5	pm5.5 242
[WhiteheadRussell] p. 125	Theorem *5.6	pm5.6dc 931  pm5.6r 932
[WhiteheadRussell] p. 125	Theorem *5.7	pm5.7dc 960
[WhiteheadRussell] p. 125	Theorem *5.31	pm5.31 348
[WhiteheadRussell] p. 125	Theorem *5.32	pm5.32 453
[WhiteheadRussell] p. 125	Theorem *5.33	pm5.33 611
[WhiteheadRussell] p. 125	Theorem *5.35	pm5.35 922
[WhiteheadRussell] p. 125	Theorem *5.36	pm5.36 612
[WhiteheadRussell] p. 125	Theorem *5.41	imdi 250  pm5.41 251
[WhiteheadRussell] p. 125	Theorem *5.42	pm5.42 320
[WhiteheadRussell] p. 125	Theorem *5.44	pm5.44 930
[WhiteheadRussell] p. 125	Theorem *5.53	pm5.53 807
[WhiteheadRussell] p. 125	Theorem *5.54	pm5.54dc 923
[WhiteheadRussell] p. 125	Theorem *5.55	pm5.55dc 918
[WhiteheadRussell] p. 125	Theorem *5.61	pm5.61 799
[WhiteheadRussell] p. 125	Theorem *5.62	pm5.62dc 951
[WhiteheadRussell] p. 125	Theorem *5.63	pm5.63dc 952
[WhiteheadRussell] p. 125	Theorem *5.71	pm5.71dc 967
[WhiteheadRussell] p. 125	Theorem *5.501	pm5.501 244
[WhiteheadRussell] p. 126	Theorem *5.74	pm5.74 179
[WhiteheadRussell] p. 126	Theorem *5.75	pm5.75 968
[WhiteheadRussell] p. 150	Theorem *10.3	alsyl 1681
[WhiteheadRussell] p. 160	Theorem *11.21	alrot3 1531
[WhiteheadRussell] p. 163	Theorem *11.42	19.40-2 1678
[WhiteheadRussell] p. 164	Theorem *11.53	pm11.53 1942
[WhiteheadRussell] p. 175	Definition *14.02	df-eu 2080
[WhiteheadRussell] p. 178	Theorem *13.18	pm13.18 2481
[WhiteheadRussell] p. 178	Theorem *13.181	pm13.181 2482
[WhiteheadRussell] p. 178	Theorem *13.183	pm13.183 2942
[WhiteheadRussell] p. 185	Theorem *14.121	sbeqalb 3086
[WhiteheadRussell] p. 190	Theorem *14.22	iota4 5304
[WhiteheadRussell] p. 191	Theorem *14.23	iota4an 5305
[WhiteheadRussell] p. 192	Theorem *14.26	eupick 2157  eupickbi 2160
[WhiteheadRussell] p. 235	Definition *30.01	df-fv 5332
[WhiteheadRussell] p. 360	Theorem *54.43	pm54.43 7389