normlem2

Description: Lemma used to derive properties of norm. Part of Theorem 3.3(ii) of Beran p. 97. (Contributed by NM, 27-Jul-1999) (New usage is discouraged.)

	Ref	Expression
Hypotheses	normlem1.1	$⊢ S \in ℂ$
	normlem1.2	$⊢ F \in ℋ$
	normlem1.3	$⊢ G \in ℋ$
	normlem2.4	$⊢ B = - (\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F))$
Assertion	normlem2	$⊢ B \in ℝ$

Proof

Step	Hyp	Ref	Expression
1		normlem1.1	$⊢ S \in ℂ$
2		normlem1.2	$⊢ F \in ℋ$
3		normlem1.3	$⊢ G \in ℋ$
4		normlem2.4	$⊢ B = - (\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F))$
5	1	cjcli	$⊢ \overline{S} \in ℂ$
6	2 3	hicli	$⊢ F \cdot_{ih} G \in ℂ$
7	5 6	mulcli	$⊢ \overline{S} (F \cdot_{ih} G) \in ℂ$
8	3 2	hicli	$⊢ G \cdot_{ih} F \in ℂ$
9	1 8	mulcli	$⊢ S (G \cdot_{ih} F) \in ℂ$
10	7 9	cjaddi	$⊢ \overline{\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)} = \overline{\overline{S} (F \cdot_{ih} G)} + \overline{S (G \cdot_{ih} F)}$
11	1	cjcji	$⊢ \overline{\overline{S}} = S$
12	11	eqcomi	$⊢ S = \overline{\overline{S}}$
13	3 2	his1i	$⊢ G \cdot_{ih} F = \overline{F \cdot_{ih} G}$
14	12 13	oveq12i	$⊢ S (G \cdot_{ih} F) = \overline{\overline{S}} \overline{F \cdot_{ih} G}$
15	5 6	cjmuli	$⊢ \overline{\overline{S} (F \cdot_{ih} G)} = \overline{\overline{S}} \overline{F \cdot_{ih} G}$
16	14 15	eqtr4i	$⊢ S (G \cdot_{ih} F) = \overline{\overline{S} (F \cdot_{ih} G)}$
17	2 3	his1i	$⊢ F \cdot_{ih} G = \overline{G \cdot_{ih} F}$
18	17	oveq2i	$⊢ \overline{S} (F \cdot_{ih} G) = \overline{S} \overline{G \cdot_{ih} F}$
19	1 8	cjmuli	$⊢ \overline{S (G \cdot_{ih} F)} = \overline{S} \overline{G \cdot_{ih} F}$
20	18 19	eqtr4i	$⊢ \overline{S} (F \cdot_{ih} G) = \overline{S (G \cdot_{ih} F)}$
21	16 20	oveq12i	$⊢ S (G \cdot_{ih} F) + \overline{S} (F \cdot_{ih} G) = \overline{\overline{S} (F \cdot_{ih} G)} + \overline{S (G \cdot_{ih} F)}$
22	10 21	eqtr4i	$⊢ \overline{\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)} = S (G \cdot_{ih} F) + \overline{S} (F \cdot_{ih} G)$
23	7 9	addcomi	$⊢ \overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F) = S (G \cdot_{ih} F) + \overline{S} (F \cdot_{ih} G)$
24	22 23	eqtr4i	$⊢ \overline{\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)} = \overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)$
25	7 9	addcli	$⊢ \overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F) \in ℂ$
26	25	cjrebi	$⊢ \overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F) \in ℝ \leftrightarrow \overline{\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)} = \overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)$
27	24 26	mpbir	$⊢ \overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F) \in ℝ$
28	27	renegcli	$⊢ - (\overline{S} (F \cdot_{ih} G) + S (G \cdot_{ih} F)) \in ℝ$
29	4 28	eqeltri	$⊢ B \in ℝ$

Metamath Proof Explorer

Theorem normlem2

Proof