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| Mirrors > Home > MPE Home > Th. List > Mathboxes > gg-cxpcn | Structured version Visualization version GIF version | ||
| Description: Domain of continuity of the complex power function. (Contributed by Mario Carneiro, 1-May-2016.) Use mpomulcn 35150 instead of mulcn 24374 as direct dependency. (Revised by GG, 16-Mar-2025.) |
| Ref | Expression |
|---|---|
| gg-cxpcn.d | β’ π· = (β β (-β(,]0)) |
| gg-cxpcn.j | β’ π½ = (TopOpenββfld) |
| gg-cxpcn.k | β’ πΎ = (π½ βΎt π·) |
| Ref | Expression |
|---|---|
| gg-cxpcn | β’ (π₯ β π·, π¦ β β β¦ (π₯βππ¦)) β ((πΎ Γt π½) Cn π½) |
| Step | Hyp | Ref | Expression |
|---|---|---|---|
| 1 | gg-cxpcn.d | . . . . . . 7 β’ π· = (β β (-β(,]0)) | |
| 2 | 1 | ellogdm 26138 | . . . . . 6 β’ (π₯ β π· β (π₯ β β β§ (π₯ β β β π₯ β β+))) |
| 3 | 2 | simplbi 498 | . . . . 5 β’ (π₯ β π· β π₯ β β) |
| 4 | 3 | adantr 481 | . . . 4 β’ ((π₯ β π· β§ π¦ β β) β π₯ β β) |
| 5 | 1 | logdmn0 26139 | . . . . 5 β’ (π₯ β π· β π₯ β 0) |
| 6 | 5 | adantr 481 | . . . 4 β’ ((π₯ β π· β§ π¦ β β) β π₯ β 0) |
| 7 | simpr 485 | . . . 4 β’ ((π₯ β π· β§ π¦ β β) β π¦ β β) | |
| 8 | 4, 6, 7 | cxpefd 26211 | . . 3 β’ ((π₯ β π· β§ π¦ β β) β (π₯βππ¦) = (expβ(π¦ Β· (logβπ₯)))) |
| 9 | 8 | mpoeq3ia 7483 | . 2 β’ (π₯ β π·, π¦ β β β¦ (π₯βππ¦)) = (π₯ β π·, π¦ β β β¦ (expβ(π¦ Β· (logβπ₯)))) |
| 10 | gg-cxpcn.k | . . . . 5 β’ πΎ = (π½ βΎt π·) | |
| 11 | gg-cxpcn.j | . . . . . . . 8 β’ π½ = (TopOpenββfld) | |
| 12 | 11 | cnfldtopon 24290 | . . . . . . 7 β’ π½ β (TopOnββ) |
| 13 | 12 | a1i 11 | . . . . . 6 β’ (β€ β π½ β (TopOnββ)) |
| 14 | 3 | ssriv 3985 | . . . . . 6 β’ π· β β |
| 15 | resttopon 22656 | . . . . . 6 β’ ((π½ β (TopOnββ) β§ π· β β) β (π½ βΎt π·) β (TopOnβπ·)) | |
| 16 | 13, 14, 15 | sylancl 586 | . . . . 5 β’ (β€ β (π½ βΎt π·) β (TopOnβπ·)) |
| 17 | 10, 16 | eqeltrid 2837 | . . . 4 β’ (β€ β πΎ β (TopOnβπ·)) |
| 18 | 17, 13 | cnmpt2nd 23164 | . . . . 5 β’ (β€ β (π₯ β π·, π¦ β β β¦ π¦) β ((πΎ Γt π½) Cn π½)) |
| 19 | fvres 6907 | . . . . . . . 8 β’ (π₯ β π· β ((log βΎ π·)βπ₯) = (logβπ₯)) | |
| 20 | 19 | adantr 481 | . . . . . . 7 β’ ((π₯ β π· β§ π¦ β β) β ((log βΎ π·)βπ₯) = (logβπ₯)) |
| 21 | 20 | mpoeq3ia 7483 | . . . . . 6 β’ (π₯ β π·, π¦ β β β¦ ((log βΎ π·)βπ₯)) = (π₯ β π·, π¦ β β β¦ (logβπ₯)) |
| 22 | 17, 13 | cnmpt1st 23163 | . . . . . . 7 β’ (β€ β (π₯ β π·, π¦ β β β¦ π₯) β ((πΎ Γt π½) Cn πΎ)) |
| 23 | 1 | logcn 26146 | . . . . . . . . 9 β’ (log βΎ π·) β (π·βcnββ) |
| 24 | ssid 4003 | . . . . . . . . . 10 β’ β β β | |
| 25 | 12 | toponrestid 22414 | . . . . . . . . . . 11 β’ π½ = (π½ βΎt β) |
| 26 | 11, 10, 25 | cncfcn 24417 | . . . . . . . . . 10 β’ ((π· β β β§ β β β) β (π·βcnββ) = (πΎ Cn π½)) |
| 27 | 14, 24, 26 | mp2an 690 | . . . . . . . . 9 β’ (π·βcnββ) = (πΎ Cn π½) |
| 28 | 23, 27 | eleqtri 2831 | . . . . . . . 8 β’ (log βΎ π·) β (πΎ Cn π½) |
| 29 | 28 | a1i 11 | . . . . . . 7 β’ (β€ β (log βΎ π·) β (πΎ Cn π½)) |
| 30 | 17, 13, 22, 29 | cnmpt21f 23167 | . . . . . 6 β’ (β€ β (π₯ β π·, π¦ β β β¦ ((log βΎ π·)βπ₯)) β ((πΎ Γt π½) Cn π½)) |
| 31 | 21, 30 | eqeltrrid 2838 | . . . . 5 β’ (β€ β (π₯ β π·, π¦ β β β¦ (logβπ₯)) β ((πΎ Γt π½) Cn π½)) |
| 32 | 11 | mpomulcn 35150 | . . . . . 6 β’ (π’ β β, π£ β β β¦ (π’ Β· π£)) β ((π½ Γt π½) Cn π½) |
| 33 | 32 | a1i 11 | . . . . 5 β’ (β€ β (π’ β β, π£ β β β¦ (π’ Β· π£)) β ((π½ Γt π½) Cn π½)) |
| 34 | oveq12 7414 | . . . . 5 β’ ((π’ = π¦ β§ π£ = (logβπ₯)) β (π’ Β· π£) = (π¦ Β· (logβπ₯))) | |
| 35 | 17, 13, 18, 31, 13, 13, 33, 34 | cnmpt22 23169 | . . . 4 β’ (β€ β (π₯ β π·, π¦ β β β¦ (π¦ Β· (logβπ₯))) β ((πΎ Γt π½) Cn π½)) |
| 36 | efcn 25946 | . . . . . 6 β’ exp β (ββcnββ) | |
| 37 | 11 | cncfcn1 24418 | . . . . . 6 β’ (ββcnββ) = (π½ Cn π½) |
| 38 | 36, 37 | eleqtri 2831 | . . . . 5 β’ exp β (π½ Cn π½) |
| 39 | 38 | a1i 11 | . . . 4 β’ (β€ β exp β (π½ Cn π½)) |
| 40 | 17, 13, 35, 39 | cnmpt21f 23167 | . . 3 β’ (β€ β (π₯ β π·, π¦ β β β¦ (expβ(π¦ Β· (logβπ₯)))) β ((πΎ Γt π½) Cn π½)) |
| 41 | 40 | mptru 1548 | . 2 β’ (π₯ β π·, π¦ β β β¦ (expβ(π¦ Β· (logβπ₯)))) β ((πΎ Γt π½) Cn π½) |
| 42 | 9, 41 | eqeltri 2829 | 1 β’ (π₯ β π·, π¦ β β β¦ (π₯βππ¦)) β ((πΎ Γt π½) Cn π½) |
| Colors of variables: wff setvar class |
| Syntax hints: β wi 4 β§ wa 396 = wceq 1541 β€wtru 1542 β wcel 2106 β wne 2940 β cdif 3944 β wss 3947 βΎ cres 5677 βcfv 6540 (class class class)co 7405 β cmpo 7407 βcc 11104 βcr 11105 0cc0 11106 Β· cmul 11111 -βcmnf 11242 β+crp 12970 (,]cioc 13321 expce 16001 βΎt crest 17362 TopOpenctopn 17363 βfldccnfld 20936 TopOnctopon 22403 Cn ccn 22719 Γt ctx 23055 βcnβccncf 24383 logclog 26054 βπccxp 26055 |
| This theorem was proved from axioms: ax-mp 5 ax-1 6 ax-2 7 ax-3 8 ax-gen 1797 ax-4 1811 ax-5 1913 ax-6 1971 ax-7 2011 ax-8 2108 ax-9 2116 ax-10 2137 ax-11 2154 ax-12 2171 ax-ext 2703 ax-rep 5284 ax-sep 5298 ax-nul 5305 ax-pow 5362 ax-pr 5426 ax-un 7721 ax-inf2 9632 ax-cnex 11162 ax-resscn 11163 ax-1cn 11164 ax-icn 11165 ax-addcl 11166 ax-addrcl 11167 ax-mulcl 11168 ax-mulrcl 11169 ax-mulcom 11170 ax-addass 11171 ax-mulass 11172 ax-distr 11173 ax-i2m1 11174 ax-1ne0 11175 ax-1rid 11176 ax-rnegex 11177 ax-rrecex 11178 ax-cnre 11179 ax-pre-lttri 11180 ax-pre-lttrn 11181 ax-pre-ltadd 11182 ax-pre-mulgt0 11183 ax-pre-sup 11184 ax-addf 11185 ax-mulf 11186 |
| This theorem depends on definitions: df-bi 206 df-an 397 df-or 846 df-3or 1088 df-3an 1089 df-tru 1544 df-fal 1554 df-ex 1782 df-nf 1786 df-sb 2068 df-mo 2534 df-eu 2563 df-clab 2710 df-cleq 2724 df-clel 2810 df-nfc 2885 df-ne 2941 df-nel 3047 df-ral 3062 df-rex 3071 df-rmo 3376 df-reu 3377 df-rab 3433 df-v 3476 df-sbc 3777 df-csb 3893 df-dif 3950 df-un 3952 df-in 3954 df-ss 3964 df-pss 3966 df-nul 4322 df-if 4528 df-pw 4603 df-sn 4628 df-pr 4630 df-tp 4632 df-op 4634 df-uni 4908 df-int 4950 df-iun 4998 df-iin 4999 df-br 5148 df-opab 5210 df-mpt 5231 df-tr 5265 df-id 5573 df-eprel 5579 df-po 5587 df-so 5588 df-fr 5630 df-se 5631 df-we 5632 df-xp 5681 df-rel 5682 df-cnv 5683 df-co 5684 df-dm 5685 df-rn 5686 df-res 5687 df-ima 5688 df-pred 6297 df-ord 6364 df-on 6365 df-lim 6366 df-suc 6367 df-iota 6492 df-fun 6542 df-fn 6543 df-f 6544 df-f1 6545 df-fo 6546 df-f1o 6547 df-fv 6548 df-isom 6549 df-riota 7361 df-ov 7408 df-oprab 7409 df-mpo 7410 df-of 7666 df-om 7852 df-1st 7971 df-2nd 7972 df-supp 8143 df-frecs 8262 df-wrecs 8293 df-recs 8367 df-rdg 8406 df-1o 8462 df-2o 8463 df-er 8699 df-map 8818 df-pm 8819 df-ixp 8888 df-en 8936 df-dom 8937 df-sdom 8938 df-fin 8939 df-fsupp 9358 df-fi 9402 df-sup 9433 df-inf 9434 df-oi 9501 df-card 9930 df-pnf 11246 df-mnf 11247 df-xr 11248 df-ltxr 11249 df-le 11250 df-sub 11442 df-neg 11443 df-div 11868 df-nn 12209 df-2 12271 df-3 12272 df-4 12273 df-5 12274 df-6 12275 df-7 12276 df-8 12277 df-9 12278 df-n0 12469 df-z 12555 df-dec 12674 df-uz 12819 df-q 12929 df-rp 12971 df-xneg 13088 df-xadd 13089 df-xmul 13090 df-ioo 13324 df-ioc 13325 df-ico 13326 df-icc 13327 df-fz 13481 df-fzo 13624 df-fl 13753 df-mod 13831 df-seq 13963 df-exp 14024 df-fac 14230 df-bc 14259 df-hash 14287 df-shft 15010 df-cj 15042 df-re 15043 df-im 15044 df-sqrt 15178 df-abs 15179 df-limsup 15411 df-clim 15428 df-rlim 15429 df-sum 15629 df-ef 16007 df-sin 16009 df-cos 16010 df-tan 16011 df-pi 16012 df-struct 17076 df-sets 17093 df-slot 17111 df-ndx 17123 df-base 17141 df-ress 17170 df-plusg 17206 df-mulr 17207 df-starv 17208 df-sca 17209 df-vsca 17210 df-ip 17211 df-tset 17212 df-ple 17213 df-ds 17215 df-unif 17216 df-hom 17217 df-cco 17218 df-rest 17364 df-topn 17365 df-0g 17383 df-gsum 17384 df-topgen 17385 df-pt 17386 df-prds 17389 df-xrs 17444 df-qtop 17449 df-imas 17450 df-xps 17452 df-mre 17526 df-mrc 17527 df-acs 17529 df-mgm 18557 df-sgrp 18606 df-mnd 18622 df-submnd 18668 df-mulg 18945 df-cntz 19175 df-cmn 19644 df-psmet 20928 df-xmet 20929 df-met 20930 df-bl 20931 df-mopn 20932 df-fbas 20933 df-fg 20934 df-cnfld 20937 df-top 22387 df-topon 22404 df-topsp 22426 df-bases 22440 df-cld 22514 df-ntr 22515 df-cls 22516 df-nei 22593 df-lp 22631 df-perf 22632 df-cn 22722 df-cnp 22723 df-haus 22810 df-cmp 22882 df-tx 23057 df-hmeo 23250 df-fil 23341 df-fm 23433 df-flim 23434 df-flf 23435 df-xms 23817 df-ms 23818 df-tms 23819 df-cncf 24385 df-limc 25374 df-dv 25375 df-log 26056 df-cxp 26057 |
| This theorem is referenced by: (None) |
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