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Theorem indistpsx 16998
Description: The indiscrete topology on a set  A expressed as a topological space, using explicit structure component references. Compare with indistps 16999 and indistps2 17000. The advantage of this version is that the actual function for the structure is evident, and df-ndx 13400 is not needed, nor any other special definition outside of basic set theory. The disadvantage is that if the indices of the component definitions df-base 13402 and df-tset 13476 are changed in the future, this theorem will also have to be changed. Note: This theorem has hard-coded structure indices for demonstration purposes. It is not intended for general use; use indistps 16999 instead. (New usage is discouraged.) (Contributed by FL, 19-Jul-2006.)
Hypotheses
Ref Expression
indistpsx.a  |-  A  e. 
_V
indistpsx.k  |-  K  =  { <. 1 ,  A >. ,  <. 9 ,  { (/)
,  A } >. }
Assertion
Ref Expression
indistpsx  |-  K  e. 
TopSp

Proof of Theorem indistpsx
StepHypRef Expression
1 indistpsx.k . . 3  |-  K  =  { <. 1 ,  A >. ,  <. 9 ,  { (/)
,  A } >. }
2 basendx 13442 . . . . 5  |-  ( Base `  ndx )  =  1
32opeq1i 3930 . . . 4  |-  <. ( Base `  ndx ) ,  A >.  =  <. 1 ,  A >.
4 tsetndx 13542 . . . . 5  |-  (TopSet `  ndx )  =  9
54opeq1i 3930 . . . 4  |-  <. (TopSet ` 
ndx ) ,  { (/)
,  A } >.  = 
<. 9 ,  { (/)
,  A } >.
63, 5preq12i 3832 . . 3  |-  { <. (
Base `  ndx ) ,  A >. ,  <. (TopSet ` 
ndx ) ,  { (/)
,  A } >. }  =  { <. 1 ,  A >. ,  <. 9 ,  { (/) ,  A } >. }
71, 6eqtr4i 2411 . 2  |-  K  =  { <. ( Base `  ndx ) ,  A >. , 
<. (TopSet `  ndx ) ,  { (/) ,  A } >. }
8 indistpsx.a . . . 4  |-  A  e. 
_V
9 indistopon 16989 . . . 4  |-  ( A  e.  _V  ->  { (/) ,  A }  e.  (TopOn `  A ) )
108, 9ax-mp 8 . . 3  |-  { (/) ,  A }  e.  (TopOn `  A )
1110toponunii 16921 . 2  |-  A  = 
U. { (/) ,  A }
12 indistop 16990 . 2  |-  { (/) ,  A }  e.  Top
137, 11, 12eltpsi 16935 1  |-  K  e. 
TopSp
Colors of variables: wff set class
Syntax hints:    = wceq 1649    e. wcel 1717   _Vcvv 2900   (/)c0 3572   {cpr 3759   <.cop 3761   ` cfv 5395   1c1 8925   9c9 9989   ndxcnx 13394   Basecbs 13397  TopSetcts 13463  TopOnctopon 16883   TopSpctps 16885
This theorem was proved from axioms:  ax-1 5  ax-2 6  ax-3 7  ax-mp 8  ax-gen 1552  ax-5 1563  ax-17 1623  ax-9 1661  ax-8 1682  ax-13 1719  ax-14 1721  ax-6 1736  ax-7 1741  ax-11 1753  ax-12 1939  ax-ext 2369  ax-rep 4262  ax-sep 4272  ax-nul 4280  ax-pow 4319  ax-pr 4345  ax-un 4642  ax-cnex 8980  ax-resscn 8981  ax-1cn 8982  ax-icn 8983  ax-addcl 8984  ax-addrcl 8985  ax-mulcl 8986  ax-mulrcl 8987  ax-mulcom 8988  ax-addass 8989  ax-mulass 8990  ax-distr 8991  ax-i2m1 8992  ax-1ne0 8993  ax-1rid 8994  ax-rnegex 8995  ax-rrecex 8996  ax-cnre 8997  ax-pre-lttri 8998  ax-pre-lttrn 8999  ax-pre-ltadd 9000  ax-pre-mulgt0 9001
This theorem depends on definitions:  df-bi 178  df-or 360  df-an 361  df-3or 937  df-3an 938  df-tru 1325  df-ex 1548  df-nf 1551  df-sb 1656  df-eu 2243  df-mo 2244  df-clab 2375  df-cleq 2381  df-clel 2384  df-nfc 2513  df-ne 2553  df-nel 2554  df-ral 2655  df-rex 2656  df-reu 2657  df-rab 2659  df-v 2902  df-sbc 3106  df-csb 3196  df-dif 3267  df-un 3269  df-in 3271  df-ss 3278  df-pss 3280  df-nul 3573  df-if 3684  df-pw 3745  df-sn 3764  df-pr 3765  df-tp 3766  df-op 3767  df-uni 3959  df-int 3994  df-iun 4038  df-br 4155  df-opab 4209  df-mpt 4210  df-tr 4245  df-eprel 4436  df-id 4440  df-po 4445  df-so 4446  df-fr 4483  df-we 4485  df-ord 4526  df-on 4527  df-lim 4528  df-suc 4529  df-om 4787  df-xp 4825  df-rel 4826  df-cnv 4827  df-co 4828  df-dm 4829  df-rn 4830  df-res 4831  df-ima 4832  df-iota 5359  df-fun 5397  df-fn 5398  df-f 5399  df-f1 5400  df-fo 5401  df-f1o 5402  df-fv 5403  df-ov 6024  df-oprab 6025  df-mpt2 6026  df-1st 6289  df-2nd 6290  df-riota 6486  df-recs 6570  df-rdg 6605  df-1o 6661  df-oadd 6665  df-er 6842  df-en 7047  df-dom 7048  df-sdom 7049  df-fin 7050  df-pnf 9056  df-mnf 9057  df-xr 9058  df-ltxr 9059  df-le 9060  df-sub 9226  df-neg 9227  df-nn 9934  df-2 9991  df-3 9992  df-4 9993  df-5 9994  df-6 9995  df-7 9996  df-8 9997  df-9 9998  df-n0 10155  df-z 10216  df-uz 10422  df-fz 10977  df-struct 13399  df-ndx 13400  df-slot 13401  df-base 13402  df-tset 13476  df-rest 13578  df-topn 13579  df-top 16887  df-topon 16890  df-topsp 16891
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