Axiom ax-gen 1803

Description: Rule of (universal) generalization. In our axiomatization, this is the only postulated (that is, axiomatic) rule of inference of predicate calculus (together with the rule of modus ponens ax-mp 5 of propositional calculus). See, e.g., Rule 2 of [Hamilton] p. 74. This rule says that if something is unconditionally true, then it is true for all values of a variable. For example, if we have proved 𝑥 = 𝑥, then we can conclude ∀𝑥𝑥 = 𝑥 or even ∀𝑦𝑥 = 𝑥. Theorem altru 1815 shows the special case ∀𝑥⊤. The converse rule of inference spi 2198 (universal instantiation, or universal specialization) shows that we can also go the other way: in other words, we can add or remove universal quantifiers from the beginning of any theorem as required. Note that the closed form (𝜑 → ∀𝑥𝜑) need not hold (but may hold in special cases, see ax-5 1918). (Contributed by NM, 3-Jan-1993.)

Hypothesis

Ref	Expression
ax-gen.1	⊢ 𝜑

Assertion

Ref	Expression
ax-gen	⊢ ∀𝑥𝜑

Detailed syntax breakdown of Axiom ax-gen

Step	Hyp	Ref	Expression
1		wph	. 2 wff 𝜑
2		vx	. 2 setvar 𝑥
3	1, 2	wal 1546	1 wff ∀𝑥𝜑

This axiom is referenced by:  gen2  1804  mpg  1805  mpgbi  1806  mpgbir  1807  hbth  1811  altru  1815  alfal  1816  stdpc6  2036  sbtlem  2077  ax13dgen3  2152  ceqsalg  3468  vtoclegft  3528  elabg  3615  mosub  3655  sbcth  3739  sbciegf  3762  sbcg  3796  csbiegf  3865  sbcnestgw  4353  csbnestgw  4354  sbcnestg  4358  csbnestg  4359  csbnest1g  4362  al0ssb  5232  intidg  5398  ssopab2i  5494  relssi  5732  xpidtr  6078  funcnvsn  6538  caovmo  7596  trom  7818  peano1  7832  abrexexg  7905  tfrlem7  8316  1onn  8570  2onn  8572  findcard  9092  findcard2  9093  pssnn  9097  ssfi  9101  fiint  9231  inf0  9537  axinf2  9556  trcl  9644  axac3  10382  brdom3  10446  axpowndlem4  10519  axregndlem2  10522  axinfnd  10525  wfgru  10735  nqerf  10849  uzrdgfni  13915  ltweuz  13918  trclfvcotr  14966  fclim  15510  letsr  18554  cnsubrglem  21395  distop  22981  fctop  22990  cctop  22992  ulmdm  26379  upgr0eopALT  29205  bnj1023  34976  bnj1109  34982  bnj907  35162  axnulALT2  35277  funen1cnv  35282  tz9.1regs  35328  axsepg2  35334  axsepg4  35337  axnulg  35339  axpowg2  35341  axpowg3  35342  loop1cycl  35378  umgr2cycl  35382  hbimg  36048  fnsingle  36158  funimage  36167  funpartfun  36184  hftr  36423  itgeq12i  36447  filnetlem3  36621  bj-genr  36931  bj-genl  36932  bj-genan  36933  bj-mpgs  36934  bj-alimii  36941  bj-almpig  36944  bj-ax12v  37009  bj-ceqsalg0  37254  bj-ceqsalgALT  37256  bj-ceqsalgvALT  37258  bj-vtoclgfALT  37425  bj-rep  37439  bj-axseprep  37440  bj-axreprepsep  37441  vtoclefex  37709  rdgeqoa  37745  exrecfnpw  37756  riscer  38368  trressn  38915  disjALTV0  39234  ax12eq  39446  cdleme32fva  40942  sbalexi  42711  unielss  43676  tfsconcatlem  43794  eu0  43977  dfrcl2  44131  rr-grothprim  44757  rr-grothshort  44761  pm11.11  44831  sbc3orgVD  45307  ordelordALTVD  45323  trsbcVD  45333  undif3VD  45338  sbcssgVD  45339  csbingVD  45340  onfrALTlem1VD  45346  onfrALTVD  45347  csbsngVD  45349  csbxpgVD  45350  csbresgVD  45351  csbrngVD  45352  csbima12gALTVD  45353  csbunigVD  45354  csbfv12gALTVD  45355  19.41rgVD  45358  unisnALT  45382  wfaxrep  45451  permaxsep  45464  permaxnul  45465  permaxpow  45466  permaxpr  45467  permaxun  45468  permaxinf2lem  45469  refsum2cnlem1  45498  dvnprodlem3  46403  sge00  46831  quantgodel  47329  quantgodelALT  47330  sinnpoly  47366  eusnsn  47501  aiota0def  47571  sprssspr  47968  spcdvw  50181  setrec2lem2  50196  onsetrec  50210