Axiom ax-gen 1797

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 1809 shows the special case ∀𝑥⊤. The converse rule of inference spi 2191 (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 1912). (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 1540	1 wff ∀𝑥𝜑

This axiom is referenced by:  gen2  1798  mpg  1799  mpgbi  1800  mpgbir  1801  hbth  1805  altru  1809  alfal  1810  stdpc6  2030  sbtlem  2071  ax13dgen3  2145  ceqsalg  3463  vtoclegft  3529  elabg  3616  mosub  3656  sbcth  3740  sbciegf  3763  sbcg  3797  csbiegf  3866  sbcnestgw  4353  csbnestgw  4354  sbcnestg  4358  csbnestg  4359  csbnest1g  4362  al0ssb  5232  intidg  5398  ssopab2i  5494  relssi  5732  xpidtr  6074  funcnvsn  6537  caovmo  7593  trom  7815  peano1  7829  abrexexg  7903  tfrlem7  8311  1onn  8565  2onn  8567  findcard  9087  findcard2  9088  pssnn  9092  ssfi  9096  fiint  9226  inf0  9531  axinf2  9550  trcl  9638  axac3  10375  brdom3  10439  axpowndlem4  10512  axregndlem2  10515  axinfnd  10518  wfgru  10728  nqerf  10842  uzrdgfni  13909  ltweuz  13912  trclfvcotr  14960  fclim  15504  letsr  18548  cnsubrglem  21386  distop  22948  fctop  22957  cctop  22959  ulmdm  26346  upgr0eopALT  29173  bnj1023  34911  bnj1109  34917  bnj907  35097  axnulALT2  35212  funen1cnv  35219  axnulg  35239  tz9.1regs  35266  loop1cycl  35307  umgr2cycl  35311  hbimg  35977  fnsingle  36087  funimage  36096  funpartfun  36113  hftr  36352  itgeq12i  36376  filnetlem3  36550  bj-genr  36860  bj-genl  36861  bj-genan  36862  bj-mpgs  36863  bj-alimii  36870  bj-almpig  36873  bj-ax12v  36938  bj-ceqsalg0  37183  bj-ceqsalgALT  37185  bj-ceqsalgvALT  37187  bj-vtoclgfALT  37354  bj-rep  37368  bj-axseprep  37369  bj-axreprepsep  37370  vtoclefex  37638  rdgeqoa  37674  exrecfnpw  37685  riscer  38297  trressn  38844  disjALTV0  39163  ax12eq  39375  cdleme32fva  40871  sbalexi  42640  unielss  43634  tfsconcatlem  43752  eu0  43935  dfrcl2  44089  rr-grothprim  44715  rr-grothshort  44719  pm11.11  44789  sbc3orgVD  45265  ordelordALTVD  45281  trsbcVD  45291  undif3VD  45296  sbcssgVD  45297  csbingVD  45298  onfrALTlem1VD  45304  onfrALTVD  45305  csbsngVD  45307  csbxpgVD  45308  csbresgVD  45309  csbrngVD  45310  csbima12gALTVD  45311  csbunigVD  45312  csbfv12gALTVD  45313  19.41rgVD  45316  unisnALT  45340  wfaxrep  45409  permaxsep  45422  permaxnul  45423  permaxpow  45424  permaxpr  45425  permaxun  45426  permaxinf2lem  45427  refsum2cnlem1  45456  dvnprodlem3  46364  sge00  46792  quantgodel  47290  quantgodelALT  47291  sinnpoly  47327  eusnsn  47462  aiota0def  47532  sprssspr  47929  spcdvw  50142  setrec2lem2  50157  onsetrec  50171