nmoptri2i

Description: Triangle-type inequality for the norms of bounded linear operators. (Contributed by NM, 10-Mar-2006) (New usage is discouraged.)

	Ref	Expression
Hypotheses	nmoptri.1	$⊢ S \in BndLinOp$
	nmoptri.2	$⊢ T \in BndLinOp$
Assertion	nmoptri2i	$⊢ {norm}_{op} (S) - {norm}_{op} (T) \leq {norm}_{op} (S +_{op} T)$

Proof

Step	Hyp	Ref	Expression
1		nmoptri.1	$⊢ S \in BndLinOp$
2		nmoptri.2	$⊢ T \in BndLinOp$
3	1 2	bdophsi	$⊢ S +_{op} T \in BndLinOp$
4		neg1cn	$⊢ - 1 \in ℂ$
5	2	bdophmi	$⊢ - 1 \in ℂ \to -1 \cdot_{op} T \in BndLinOp$
6	4 5	ax-mp	$⊢ -1 \cdot_{op} T \in BndLinOp$
7	3 6	nmoptrii	$⊢ {norm}_{op} ((S +_{op} T) +_{op} (-1 \cdot_{op} T)) \leq {norm}_{op} (S +_{op} T) + {norm}_{op} (-1 \cdot_{op} T)$
8		bdopf	$⊢ S \in BndLinOp \to S : ℋ ⟶ ℋ$
9	1 8	ax-mp	$⊢ S : ℋ ⟶ ℋ$
10		bdopf	$⊢ T \in BndLinOp \to T : ℋ ⟶ ℋ$
11	2 10	ax-mp	$⊢ T : ℋ ⟶ ℋ$
12	9 11	hoaddcli	$⊢ (S +_{op} T) : ℋ ⟶ ℋ$
13	12 11	honegsubi	$⊢ (S +_{op} T) +_{op} (-1 \cdot_{op} T) = (S +_{op} T) -_{op} T$
14	9 11	hopncani	$⊢ (S +_{op} T) -_{op} T = S$
15	13 14	eqtri	$⊢ (S +_{op} T) +_{op} (-1 \cdot_{op} T) = S$
16	15	fveq2i	$⊢ {norm}_{op} ((S +_{op} T) +_{op} (-1 \cdot_{op} T)) = {norm}_{op} (S)$
17	11	nmopnegi	$⊢ {norm}_{op} (-1 \cdot_{op} T) = {norm}_{op} (T)$
18	17	oveq2i	$⊢ {norm}_{op} (S +_{op} T) + {norm}_{op} (-1 \cdot_{op} T) = {norm}_{op} (S +_{op} T) + {norm}_{op} (T)$
19	7 16 18	3brtr3i	$⊢ {norm}_{op} (S) \leq {norm}_{op} (S +_{op} T) + {norm}_{op} (T)$
20		nmopre	$⊢ S \in BndLinOp \to {norm}_{op} (S) \in ℝ$
21	1 20	ax-mp	$⊢ {norm}_{op} (S) \in ℝ$
22		nmopre	$⊢ T \in BndLinOp \to {norm}_{op} (T) \in ℝ$
23	2 22	ax-mp	$⊢ {norm}_{op} (T) \in ℝ$
24		nmopre	$⊢ S +_{op} T \in BndLinOp \to {norm}_{op} (S +_{op} T) \in ℝ$
25	3 24	ax-mp	$⊢ {norm}_{op} (S +_{op} T) \in ℝ$
26	21 23 25	lesubaddi	$⊢ {norm}_{op} (S) - {norm}_{op} (T) \leq {norm}_{op} (S +_{op} T) \leftrightarrow {norm}_{op} (S) \leq {norm}_{op} (S +_{op} T) + {norm}_{op} (T)$
27	19 26	mpbir	$⊢ {norm}_{op} (S) - {norm}_{op} (T) \leq {norm}_{op} (S +_{op} T)$

Metamath Proof Explorer

Theorem nmoptri2i

Proof