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Theorem limsupres 39937
Description: The superior limit of a restriction is less than or equal to the original superior limit. (Contributed by Glauco Siliprandi, 23-Oct-2021.)
Hypothesis
Ref Expression
limsupres.1 |- ( ph -> F e. V )
Assertion
Ref Expression
limsupres |- ( ph -> ( limsup ` ( F |` C ) ) <_ ( limsup ` F ) )
Proof of Theorem limsupres
Dummy variable k is distinct from all other variables.
StepHypRef Expression
1 nfv 1843 . . 3 |- F/ k ph
2 resimass 39449 . . . . . . . 8 |- ( ( F |` C ) " ( k [,) +oo ) ) C_ ( F " ( k [,) +oo ) )
32a1i 11 . . . . . . 7 |- ( k e. RR -> ( ( F |` C ) " ( k [,) +oo ) ) C_ ( F " ( k [,) +oo ) ) )
4 ssrin 3838 . . . . . . 7 |- ( ( ( F |` C ) " ( k [,) +oo ) ) C_ ( F " ( k [,) +oo ) ) -> ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) C_ ( ( F " ( k [,) +oo ) ) i^i RR* ) )
53, 4syl 17 . . . . . 6 |- ( k e. RR -> ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) C_ ( ( F " ( k [,) +oo ) ) i^i RR* ) )
65adantl 482 . . . . 5 |- ( ( ph /\ k e. RR ) -> ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) C_ ( ( F " ( k [,) +oo ) ) i^i RR* ) )
7 inss2 3834 . . . . . 6 |- ( ( F " ( k [,) +oo ) ) i^i RR* ) C_ RR*
87a1i 11 . . . . 5 |- ( ( ph /\ k e. RR ) -> ( ( F " ( k [,) +oo ) ) i^i RR* ) C_ RR* )
96, 8sstrd 3613 . . . 4 |- ( ( ph /\ k e. RR ) -> ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) C_ RR* )
109supxrcld 39290 . . 3 |- ( ( ph /\ k e. RR ) -> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) e. RR* )
118supxrcld 39290 . . 3 |- ( ( ph /\ k e. RR ) -> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) e. RR* )
12 supxrss 12162 . . . 4 |- ( ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) C_ ( ( F " ( k [,) +oo ) ) i^i RR* ) /\ ( ( F " ( k [,) +oo ) ) i^i RR* ) C_ RR* ) -> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) <_ sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) )
136, 8, 12syl2anc 693 . . 3 |- ( ( ph /\ k e. RR ) -> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) <_ sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) )
141, 10, 11, 13infrnmptle 39650 . 2 |- ( ph -> inf ( ran ( k e. RR |-> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) <_ inf ( ran ( k e. RR |-> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) )
15 limsupres.1 . . . . 5 |- ( ph -> F e. V )
1615resexd 39321 . . . 4 |- ( ph -> ( F |` C ) e. _V )
17 eqid 2622 . . . . 5 |- ( k e. RR |-> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) = ( k e. RR |-> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) )
1817limsupval 14205 . . . 4 |- ( ( F |` C ) e. _V -> ( limsup ` ( F |` C ) ) = inf ( ran ( k e. RR |-> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) )
1916, 18syl 17 . . 3 |- ( ph -> ( limsup ` ( F |` C ) ) = inf ( ran ( k e. RR |-> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) )
20 eqid 2622 . . . . 5 |- ( k e. RR |-> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) = ( k e. RR |-> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) )
2120limsupval 14205 . . . 4 |- ( F e. V -> ( limsup ` F ) = inf ( ran ( k e. RR |-> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) )
2215, 21syl 17 . . 3 |- ( ph -> ( limsup ` F ) = inf ( ran ( k e. RR |-> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) )
2319, 22breq12d 4666 . 2 |- ( ph -> ( ( limsup ` ( F |` C ) ) <_ ( limsup ` F ) <-> inf ( ran ( k e. RR |-> sup ( ( ( ( F |` C ) " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) <_ inf ( ran ( k e. RR |-> sup ( ( ( F " ( k [,) +oo ) ) i^i RR* ) , RR* , < ) ) , RR* , < ) ) )
2414, 23mpbird 247 1 |- ( ph -> ( limsup ` ( F |` C ) ) <_ ( limsup ` F ) )
Colors of variables: wff setvar class
Syntax hints:   -> wi 4   /\ wa 384   = wceq 1483   e. wcel 1990   _Vcvv 3200   i^i cin 3573   C_ wss 3574   class class class wbr 4653   |-> cmpt 4729   ran crn 5115   |` cres 5116   "cima 5117   ` cfv 5888  (class class class)co 6650   supcsup 8346  infcinf 8347   RRcr 9935   +oocpnf 10071   RR*cxr 10073   < clt 10074   <_ cle 10075   [,)cico 12177   limsupclsp 14201
This theorem was proved from axioms:  ax-mp 5  ax-1 6  ax-2 7  ax-3 8  ax-gen 1722  ax-4 1737  ax-5 1839  ax-6 1888  ax-7 1935  ax-8 1992  ax-9 1999  ax-10 2019  ax-11 2034  ax-12 2047  ax-13 2246  ax-ext 2602  ax-sep 4781  ax-nul 4789  ax-pow 4843  ax-pr 4906  ax-un 6949  ax-cnex 9992  ax-resscn 9993  ax-1cn 9994  ax-icn 9995  ax-addcl 9996  ax-addrcl 9997  ax-mulcl 9998  ax-mulrcl 9999  ax-mulcom 10000  ax-addass 10001  ax-mulass 10002  ax-distr 10003  ax-i2m1 10004  ax-1ne0 10005  ax-1rid 10006  ax-rnegex 10007  ax-rrecex 10008  ax-cnre 10009  ax-pre-lttri 10010  ax-pre-lttrn 10011  ax-pre-ltadd 10012  ax-pre-mulgt0 10013  ax-pre-sup 10014
This theorem depends on definitions:  df-bi 197  df-or 385  df-an 386  df-3or 1038  df-3an 1039  df-tru 1486  df-ex 1705  df-nf 1710  df-sb 1881  df-eu 2474  df-mo 2475  df-clab 2609  df-cleq 2615  df-clel 2618  df-nfc 2753  df-ne 2795  df-nel 2898  df-ral 2917  df-rex 2918  df-reu 2919  df-rmo 2920  df-rab 2921  df-v 3202  df-sbc 3436  df-csb 3534  df-dif 3577  df-un 3579  df-in 3581  df-ss 3588  df-nul 3916  df-if 4087  df-pw 4160  df-sn 4178  df-pr 4180  df-op 4184  df-uni 4437  df-br 4654  df-opab 4713  df-mpt 4730  df-id 5024  df-po 5035  df-so 5036  df-xp 5120  df-rel 5121  df-cnv 5122  df-co 5123  df-dm 5124  df-rn 5125  df-res 5126  df-ima 5127  df-iota 5851  df-fun 5890  df-fn 5891  df-f 5892  df-f1 5893  df-fo 5894  df-f1o 5895  df-fv 5896  df-riota 6611  df-ov 6653  df-oprab 6654  df-mpt2 6655  df-er 7742  df-en 7956  df-dom 7957  df-sdom 7958  df-sup 8348  df-inf 8349  df-pnf 10076  df-mnf 10077  df-xr 10078  df-ltxr 10079  df-le 10080  df-sub 10268  df-neg 10269  df-limsup 14202
This theorem is referenced by: (None)
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