iccntr

Description: The interior of a closed interval in the standard topology on RR is the corresponding open interval. (Contributed by Mario Carneiro, 1-Sep-2014)

		Ref	Expression
	Assertion	iccntr	\|- ( ( A e. RR /\ B e. RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) = ( A (,) B ) )

Proof

Step	Hyp	Ref	Expression
1		rexr	\|- ( A e. RR -> A e. RR* )
2		rexr	\|- ( B e. RR -> B e. RR* )
3		icc0	\|- ( ( A e. RR* /\ B e. RR* ) -> ( ( A [,] B ) = (/) <-> B < A ) )
4	1 2 3	syl2an	\|- ( ( A e. RR /\ B e. RR ) -> ( ( A [,] B ) = (/) <-> B < A ) )
5	4	biimpar	\|- ( ( ( A e. RR /\ B e. RR ) /\ B < A ) -> ( A [,] B ) = (/) )
6	5	fveq2d	\|- ( ( ( A e. RR /\ B e. RR ) /\ B < A ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) = ( ( int ` ( topGen ` ran (,) ) ) ` (/) ) )
7		retop	\|- ( topGen ` ran (,) ) e. Top
8		ntr0	\|- ( ( topGen ` ran (,) ) e. Top -> ( ( int ` ( topGen ` ran (,) ) ) ` (/) ) = (/) )
9	7 8	ax-mp	\|- ( ( int ` ( topGen ` ran (,) ) ) ` (/) ) = (/)
10		0ss	\|- (/) C_ ( { A , B } u. ( A (,) B ) )
11	9 10	eqsstri	\|- ( ( int ` ( topGen ` ran (,) ) ) ` (/) ) C_ ( { A , B } u. ( A (,) B ) )
12	6 11	eqsstrdi	\|- ( ( ( A e. RR /\ B e. RR ) /\ B < A ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( { A , B } u. ( A (,) B ) ) )
13		iccssre	\|- ( ( A e. RR /\ B e. RR ) -> ( A [,] B ) C_ RR )
14		uniretop	\|- RR = U. ( topGen ` ran (,) )
15	14	ntrss2	\|- ( ( ( topGen ` ran (,) ) e. Top /\ ( A [,] B ) C_ RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A [,] B ) )
16	7 13 15	sylancr	\|- ( ( A e. RR /\ B e. RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A [,] B ) )
17	16	adantr	\|- ( ( ( A e. RR /\ B e. RR ) /\ A <_ B ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A [,] B ) )
18	1 2	anim12i	\|- ( ( A e. RR /\ B e. RR ) -> ( A e. RR* /\ B e. RR* ) )
19		uncom	\|- ( { A , B } u. ( A (,) B ) ) = ( ( A (,) B ) u. { A , B } )
20		prunioo	\|- ( ( A e. RR* /\ B e. RR* /\ A <_ B ) -> ( ( A (,) B ) u. { A , B } ) = ( A [,] B ) )
21	19 20	syl5eq	\|- ( ( A e. RR* /\ B e. RR* /\ A <_ B ) -> ( { A , B } u. ( A (,) B ) ) = ( A [,] B ) )
22	21	3expa	\|- ( ( ( A e. RR* /\ B e. RR* ) /\ A <_ B ) -> ( { A , B } u. ( A (,) B ) ) = ( A [,] B ) )
23	18 22	sylan	\|- ( ( ( A e. RR /\ B e. RR ) /\ A <_ B ) -> ( { A , B } u. ( A (,) B ) ) = ( A [,] B ) )
24	17 23	sseqtrrd	\|- ( ( ( A e. RR /\ B e. RR ) /\ A <_ B ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( { A , B } u. ( A (,) B ) ) )
25		simpr	\|- ( ( A e. RR /\ B e. RR ) -> B e. RR )
26		simpl	\|- ( ( A e. RR /\ B e. RR ) -> A e. RR )
27	12 24 25 26	ltlecasei	\|- ( ( A e. RR /\ B e. RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( { A , B } u. ( A (,) B ) ) )
28	14	ntropn	\|- ( ( ( topGen ` ran (,) ) e. Top /\ ( A [,] B ) C_ RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) e. ( topGen ` ran (,) ) )
29	7 13 28	sylancr	\|- ( ( A e. RR /\ B e. RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) e. ( topGen ` ran (,) ) )
30		eqid	\|- ( ( abs o. - ) \|` ( RR X. RR ) ) = ( ( abs o. - ) \|` ( RR X. RR ) )
31	30	rexmet	\|- ( ( abs o. - ) \|` ( RR X. RR ) ) e. ( *Met ` RR )
32		eqid	\|- ( MetOpen ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) = ( MetOpen ` ( ( abs o. - ) \|` ( RR X. RR ) ) )
33	30 32	tgioo	\|- ( topGen ` ran (,) ) = ( MetOpen ` ( ( abs o. - ) \|` ( RR X. RR ) ) )
34	33	mopni2	\|- ( ( ( ( abs o. - ) \|` ( RR X. RR ) ) e. ( *Met ` RR ) /\ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) e. ( topGen ` ran (,) ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> E. x e. RR+ ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
35	31 34	mp3an1	\|- ( ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) e. ( topGen ` ran (,) ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> E. x e. RR+ ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
36	29 35	sylan	\|- ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> E. x e. RR+ ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
37	26	ad2antrr	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> A e. RR )
38		rphalfcl	\|- ( x e. RR+ -> ( x / 2 ) e. RR+ )
39	38	adantl	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( x / 2 ) e. RR+ )
40	37 39	ltsubrpd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - ( x / 2 ) ) < A )
41	39	rpred	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( x / 2 ) e. RR )
42	37 41	resubcld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - ( x / 2 ) ) e. RR )
43	42 37	ltnled	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( A - ( x / 2 ) ) < A <-> -. A <_ ( A - ( x / 2 ) ) ) )
44	40 43	mpbid	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> -. A <_ ( A - ( x / 2 ) ) )
45		rpre	\|- ( x e. RR+ -> x e. RR )
46	45	adantl	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> x e. RR )
47		rphalflt	\|- ( x e. RR+ -> ( x / 2 ) < x )
48	47	adantl	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( x / 2 ) < x )
49	41 46 37 48	ltsub2dd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - x ) < ( A - ( x / 2 ) ) )
50	37 46	readdcld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A + x ) e. RR )
51		ltaddrp	\|- ( ( A e. RR /\ x e. RR+ ) -> A < ( A + x ) )
52	37 51	sylancom	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> A < ( A + x ) )
53	42 37 50 40 52	lttrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - ( x / 2 ) ) < ( A + x ) )
54	37 46	resubcld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - x ) e. RR )
55	54	rexrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - x ) e. RR* )
56	50	rexrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A + x ) e. RR* )
57		elioo2	\|- ( ( ( A - x ) e. RR* /\ ( A + x ) e. RR* ) -> ( ( A - ( x / 2 ) ) e. ( ( A - x ) (,) ( A + x ) ) <-> ( ( A - ( x / 2 ) ) e. RR /\ ( A - x ) < ( A - ( x / 2 ) ) /\ ( A - ( x / 2 ) ) < ( A + x ) ) ) )
58	55 56 57	syl2anc	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( A - ( x / 2 ) ) e. ( ( A - x ) (,) ( A + x ) ) <-> ( ( A - ( x / 2 ) ) e. RR /\ ( A - x ) < ( A - ( x / 2 ) ) /\ ( A - ( x / 2 ) ) < ( A + x ) ) ) )
59	42 49 53 58	mpbir3and	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - ( x / 2 ) ) e. ( ( A - x ) (,) ( A + x ) ) )
60	30	bl2ioo	\|- ( ( A e. RR /\ x e. RR ) -> ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) = ( ( A - x ) (,) ( A + x ) ) )
61	37 46 60	syl2anc	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) = ( ( A - x ) (,) ( A + x ) ) )
62	59 61	eleqtrrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( A - ( x / 2 ) ) e. ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) )
63		ssel	\|- ( ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( ( A - ( x / 2 ) ) e. ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) -> ( A - ( x / 2 ) ) e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
64	62 63	syl5com	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( A - ( x / 2 ) ) e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
65	16	ad2antrr	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A [,] B ) )
66	65	sseld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( A - ( x / 2 ) ) e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( A - ( x / 2 ) ) e. ( A [,] B ) ) )
67		elicc2	\|- ( ( A e. RR /\ B e. RR ) -> ( ( A - ( x / 2 ) ) e. ( A [,] B ) <-> ( ( A - ( x / 2 ) ) e. RR /\ A <_ ( A - ( x / 2 ) ) /\ ( A - ( x / 2 ) ) <_ B ) ) )
68		simp2	\|- ( ( ( A - ( x / 2 ) ) e. RR /\ A <_ ( A - ( x / 2 ) ) /\ ( A - ( x / 2 ) ) <_ B ) -> A <_ ( A - ( x / 2 ) ) )
69	67 68	syl6bi	\|- ( ( A e. RR /\ B e. RR ) -> ( ( A - ( x / 2 ) ) e. ( A [,] B ) -> A <_ ( A - ( x / 2 ) ) ) )
70	69	ad2antrr	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( A - ( x / 2 ) ) e. ( A [,] B ) -> A <_ ( A - ( x / 2 ) ) ) )
71	64 66 70	3syld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> A <_ ( A - ( x / 2 ) ) ) )
72	44 71	mtod	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> -. ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
73	72	nrexdv	\|- ( ( ( A e. RR /\ B e. RR ) /\ A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> -. E. x e. RR+ ( A ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
74	36 73	pm2.65da	\|- ( ( A e. RR /\ B e. RR ) -> -. A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
75	33	mopni2	\|- ( ( ( ( abs o. - ) \|` ( RR X. RR ) ) e. ( *Met ` RR ) /\ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) e. ( topGen ` ran (,) ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> E. x e. RR+ ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
76	31 75	mp3an1	\|- ( ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) e. ( topGen ` ran (,) ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> E. x e. RR+ ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
77	29 76	sylan	\|- ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> E. x e. RR+ ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
78	25	ad2antrr	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> B e. RR )
79	38	adantl	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( x / 2 ) e. RR+ )
80	78 79	ltaddrpd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> B < ( B + ( x / 2 ) ) )
81	79	rpred	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( x / 2 ) e. RR )
82	78 81	readdcld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B + ( x / 2 ) ) e. RR )
83	78 82	ltnled	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B < ( B + ( x / 2 ) ) <-> -. ( B + ( x / 2 ) ) <_ B ) )
84	80 83	mpbid	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> -. ( B + ( x / 2 ) ) <_ B )
85	45	adantl	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> x e. RR )
86	78 85	resubcld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B - x ) e. RR )
87		ltsubrp	\|- ( ( B e. RR /\ x e. RR+ ) -> ( B - x ) < B )
88	78 87	sylancom	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B - x ) < B )
89	86 78 82 88 80	lttrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B - x ) < ( B + ( x / 2 ) ) )
90	47	adantl	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( x / 2 ) < x )
91	81 85 78 90	ltadd2dd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B + ( x / 2 ) ) < ( B + x ) )
92	86	rexrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B - x ) e. RR* )
93	78 85	readdcld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B + x ) e. RR )
94	93	rexrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B + x ) e. RR* )
95		elioo2	\|- ( ( ( B - x ) e. RR* /\ ( B + x ) e. RR* ) -> ( ( B + ( x / 2 ) ) e. ( ( B - x ) (,) ( B + x ) ) <-> ( ( B + ( x / 2 ) ) e. RR /\ ( B - x ) < ( B + ( x / 2 ) ) /\ ( B + ( x / 2 ) ) < ( B + x ) ) ) )
96	92 94 95	syl2anc	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( B + ( x / 2 ) ) e. ( ( B - x ) (,) ( B + x ) ) <-> ( ( B + ( x / 2 ) ) e. RR /\ ( B - x ) < ( B + ( x / 2 ) ) /\ ( B + ( x / 2 ) ) < ( B + x ) ) ) )
97	82 89 91 96	mpbir3and	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B + ( x / 2 ) ) e. ( ( B - x ) (,) ( B + x ) ) )
98	30	bl2ioo	\|- ( ( B e. RR /\ x e. RR ) -> ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) = ( ( B - x ) (,) ( B + x ) ) )
99	78 85 98	syl2anc	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) = ( ( B - x ) (,) ( B + x ) ) )
100	97 99	eleqtrrd	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( B + ( x / 2 ) ) e. ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) )
101		ssel	\|- ( ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( ( B + ( x / 2 ) ) e. ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) -> ( B + ( x / 2 ) ) e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
102	100 101	syl5com	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( B + ( x / 2 ) ) e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
103	16	ad2antrr	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A [,] B ) )
104	103	sseld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( B + ( x / 2 ) ) e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( B + ( x / 2 ) ) e. ( A [,] B ) ) )
105		elicc2	\|- ( ( A e. RR /\ B e. RR ) -> ( ( B + ( x / 2 ) ) e. ( A [,] B ) <-> ( ( B + ( x / 2 ) ) e. RR /\ A <_ ( B + ( x / 2 ) ) /\ ( B + ( x / 2 ) ) <_ B ) ) )
106		simp3	\|- ( ( ( B + ( x / 2 ) ) e. RR /\ A <_ ( B + ( x / 2 ) ) /\ ( B + ( x / 2 ) ) <_ B ) -> ( B + ( x / 2 ) ) <_ B )
107	105 106	syl6bi	\|- ( ( A e. RR /\ B e. RR ) -> ( ( B + ( x / 2 ) ) e. ( A [,] B ) -> ( B + ( x / 2 ) ) <_ B ) )
108	107	ad2antrr	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( B + ( x / 2 ) ) e. ( A [,] B ) -> ( B + ( x / 2 ) ) <_ B ) )
109	102 104 108	3syld	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> ( ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) -> ( B + ( x / 2 ) ) <_ B ) )
110	84 109	mtod	\|- ( ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) /\ x e. RR+ ) -> -. ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
111	110	nrexdv	\|- ( ( ( A e. RR /\ B e. RR ) /\ B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) -> -. E. x e. RR+ ( B ( ball ` ( ( abs o. - ) \|` ( RR X. RR ) ) ) x ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
112	77 111	pm2.65da	\|- ( ( A e. RR /\ B e. RR ) -> -. B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
113		eleq1	\|- ( x = A -> ( x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) <-> A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
114	113	notbid	\|- ( x = A -> ( -. x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) <-> -. A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
115		eleq1	\|- ( x = B -> ( x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) <-> B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
116	115	notbid	\|- ( x = B -> ( -. x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) <-> -. B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) )
117	114 116	ralprg	\|- ( ( A e. RR /\ B e. RR ) -> ( A. x e. { A , B } -. x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) <-> ( -. A e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) /\ -. B e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) ) ) )
118	74 112 117	mpbir2and	\|- ( ( A e. RR /\ B e. RR ) -> A. x e. { A , B } -. x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
119		disjr	\|- ( ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) i^i { A , B } ) = (/) <-> A. x e. { A , B } -. x e. ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
120	118 119	sylibr	\|- ( ( A e. RR /\ B e. RR ) -> ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) i^i { A , B } ) = (/) )
121		disjssun	\|- ( ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) i^i { A , B } ) = (/) -> ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( { A , B } u. ( A (,) B ) ) <-> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A (,) B ) ) )
122	120 121	syl	\|- ( ( A e. RR /\ B e. RR ) -> ( ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( { A , B } u. ( A (,) B ) ) <-> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A (,) B ) ) )
123	27 122	mpbid	\|- ( ( A e. RR /\ B e. RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) C_ ( A (,) B ) )
124		iooretop	\|- ( A (,) B ) e. ( topGen ` ran (,) )
125		ioossicc	\|- ( A (,) B ) C_ ( A [,] B )
126	14	ssntr	\|- ( ( ( ( topGen ` ran (,) ) e. Top /\ ( A [,] B ) C_ RR ) /\ ( ( A (,) B ) e. ( topGen ` ran (,) ) /\ ( A (,) B ) C_ ( A [,] B ) ) ) -> ( A (,) B ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
127	124 125 126	mpanr12	\|- ( ( ( topGen ` ran (,) ) e. Top /\ ( A [,] B ) C_ RR ) -> ( A (,) B ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
128	7 13 127	sylancr	\|- ( ( A e. RR /\ B e. RR ) -> ( A (,) B ) C_ ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) )
129	123 128	eqssd	\|- ( ( A e. RR /\ B e. RR ) -> ( ( int ` ( topGen ` ran (,) ) ) ` ( A [,] B ) ) = ( A (,) B ) )

Metamath Proof Explorer

Theorem iccntr

Proof