lediv1dd - Metamath Proof Explorer

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Theorem lediv1dd 11339

Description: Division of both sides of a less than or equal to relation by a positive number. (Contributed by Mario Carneiro, 30-May-2016.)

**Assertion**
Ref	Expression
lediv1dd

**Proof of Theorem lediv1dd**
Step	Hyp	Ref	Expression
1		lediv1dd.4	. 2
2		ltmul1d.1	. . 3
3		ltmul1d.2	. . 3
4		ltmul1d.3	. . 3
5	2, 3, 4	lediv1d 11327	. 2
6	1, 5	mpbid 210	1

Colors of variables: wff setvar class

Syntax hints: ->wi 4 e.wcel 1818 class class class wbr 4452 (class class class)co 6296 cr 9512 cle 9650 cdiv 10231 crp 11249

This theorem is referenced by: aalioulem5 22732 aalioulem6 22733 cxp2lim 23306 cxploglim2 23308 fsumharmonic 23341 chpchtlim 23664 dchrmusum2 23679 dchrvmasumlem3 23684 dchrisum0fno1 23696 dchrisum0lem1 23701 dchrisum0lem2a 23702 mulogsumlem 23716 vmalogdivsum2 23723 2vmadivsumlem 23725 selberglem2 23731 selbergb 23734 selberg2b 23737 chpdifbndlem1 23738 logdivbnd 23741 selberg3lem1 23742 selberg4lem1 23745 pntrlog2bndlem1 23762 pntrlog2bndlem2 23763 pntrlog2bndlem3 23764 pntrlog2bndlem5 23766 pntrlog2bnd 23769 pntpbnd1a 23770 pntpbnd2 23772 pntibndlem2 23776 dya2icoseg 28248 sxbrsigalem2 28257 lgamgulmlem2 28572 lgamgulmlem5 28575 hashnzfzclim 31227 oddfl 31459 lefldiveq 31482 sumnnodd 31636 wallispilem5 31851 dirkertrigeqlem3 31882 fourierdlem6 31895 fourierdlem7 31896 fourierdlem10 31899 fourierdlem30 31919 fourierdlem39 31928 fourierdlem47 31936 fourierdlem65 31954 fourierdlem79 31968 etransclem23 32040

This theorem was proved from axioms: ax-mp 5 ax-1 6 ax-2 7 ax-3 8 ax-gen 1618 ax-4 1631 ax-5 1704 ax-6 1747 ax-7 1790 ax-8 1820 ax-9 1822 ax-10 1837 ax-11 1842 ax-12 1854 ax-13 1999 ax-ext 2435 ax-sep 4573 ax-nul 4581 ax-pow 4630 ax-pr 4691 ax-un 6592 ax-resscn 9570 ax-1cn 9571 ax-icn 9572 ax-addcl 9573 ax-addrcl 9574 ax-mulcl 9575 ax-mulrcl 9576 ax-mulcom 9577 ax-addass 9578 ax-mulass 9579 ax-distr 9580 ax-i2m1 9581 ax-1ne0 9582 ax-1rid 9583 ax-rnegex 9584 ax-rrecex 9585 ax-cnre 9586 ax-pre-lttri 9587 ax-pre-lttrn 9588 ax-pre-ltadd 9589 ax-pre-mulgt0 9590

This theorem depends on definitions: df-bi 185 df-or 370 df-an 371 df-3or 974 df-3an 975 df-tru 1398 df-ex 1613 df-nf 1617 df-sb 1740 df-eu 2286 df-mo 2287 df-clab 2443 df-cleq 2449 df-clel 2452 df-nfc 2607 df-ne 2654 df-nel 2655 df-ral 2812 df-rex 2813 df-reu 2814 df-rmo 2815 df-rab 2816 df-v 3111 df-sbc 3328 df-csb 3435 df-dif 3478 df-un 3480 df-in 3482 df-ss 3489 df-nul 3785 df-if 3942 df-pw 4014 df-sn 4030 df-pr 4032 df-op 4036 df-uni 4250 df-br 4453 df-opab 4511 df-mpt 4512 df-id 4800 df-po 4805 df-so 4806 df-xp 5010 df-rel 5011 df-cnv 5012 df-co 5013 df-dm 5014 df-rn 5015 df-res 5016 df-ima 5017 df-iota 5556 df-fun 5595 df-fn 5596 df-f 5597 df-f1 5598 df-fo 5599 df-f1o 5600 df-fv 5601 df-riota 6257 df-ov 6299 df-oprab 6300 df-mpt2 6301 df-er 7330 df-en 7537 df-dom 7538 df-sdom 7539 df-pnf 9651 df-mnf 9652 df-xr 9653 df-ltxr 9654 df-le 9655 df-sub 9830 df-neg 9831 df-div 10232 df-rp 11250