imasplusg

Description: The group operation in an image structure. (Contributed by Mario Carneiro, 23-Feb-2015) (Revised by Mario Carneiro, 11-Jul-2015) (Revised by Thierry Arnoux, 16-Jun-2019)

	Ref	Expression
Hypotheses	imasbas.u	$⊢ φ \to U = F “_{𝑠} R$
	imasbas.v	$⊢ φ \to V = {Base}_{R}$
	imasbas.f	$⊢ φ \to F : V \underset{onto}{⟶} B$
	imasbas.r	$⊢ φ \to R \in Z$
	imasplusg.p	$⊢ \underset{˙}{+} = +_{R}$
	imasplusg.a	$⊢ \underset{˙}{✚} = +_{U}$
Assertion	imasplusg	$⊢ φ \to \underset{˙}{✚} = ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}$

Proof

Step	Hyp	Ref	Expression
1		imasbas.u	$⊢ φ \to U = F “_{𝑠} R$
2		imasbas.v	$⊢ φ \to V = {Base}_{R}$
3		imasbas.f	$⊢ φ \to F : V \underset{onto}{⟶} B$
4		imasbas.r	$⊢ φ \to R \in Z$
5		imasplusg.p	$⊢ \underset{˙}{+} = +_{R}$
6		imasplusg.a	$⊢ \underset{˙}{✚} = +_{U}$
7		eqid	$⊢ \cdot_{R} = \cdot_{R}$
8		eqid	$⊢ Scalar (R) = Scalar (R)$
9		eqid	$⊢ {Base}_{Scalar (R)} = {Base}_{Scalar (R)}$
10		eqid	$⊢ \cdot_{R} = \cdot_{R}$
11		eqid	$⊢ \cdot_{𝑖} (R) = \cdot_{𝑖} (R)$
12		eqid	$⊢ TopOpen (R) = TopOpen (R)$
13		eqid	$⊢ dist (R) = dist (R)$
14		eqid	$⊢ \leq_{R} = \leq_{R}$
15		eqidd	$⊢ φ \to ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} = ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}$
16		eqidd	$⊢ φ \to ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\} = ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}$
17		eqidd	$⊢ φ \to ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q)) = ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))$
18		eqidd	$⊢ φ \to ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\} = ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}$
19		eqidd	$⊢ φ \to TopOpen (R) qTop F = TopOpen (R) qTop F$
20		eqid	$⊢ dist (U) = dist (U)$
21	1 2 3 4 13 20	imasds	$⊢ φ \to dist (U) = (x \in B, y \in B ⟼ sup (⋃_{n \in ℕ} ran (g \in \{h \in ({(V \times V)}^{(1 \dots n)}) \| (F (1^{st} (h (1))) = x \land F (2^{nd} (h (n))) = y \land \forall i \in (1 \dots n - 1) F (2^{nd} (h (i))) = F (1^{st} (h (i + 1))))\} ⟼ \sum_{ℝ_{𝑠}^{}} (dist (R) \circ g)) ℝ^{} <))$
22		eqidd	$⊢ φ \to (F \circ \leq_{R}) \circ F^{-1} = (F \circ \leq_{R}) \circ F^{-1}$
23	1 2 5 7 8 9 10 11 12 13 14 15 16 17 18 19 21 22 3 4	imasval	$⊢ φ \to U = (\{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}) \cup \{⟨TopSet (ndx), TopOpen (R) qTop F⟩, ⟨\leq_{ndx}, (F \circ \leq_{R}) \circ F^{-1}⟩, ⟨dist (ndx), dist (U)⟩\}$
24		eqid	$⊢ (\{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}) \cup \{⟨TopSet (ndx), TopOpen (R) qTop F⟩, ⟨\leq_{ndx}, (F \circ \leq_{R}) \circ F^{-1}⟩, ⟨dist (ndx), dist (U)⟩\} = (\{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}) \cup \{⟨TopSet (ndx), TopOpen (R) qTop F⟩, ⟨\leq_{ndx}, (F \circ \leq_{R}) \circ F^{-1}⟩, ⟨dist (ndx), dist (U)⟩\}$
25	24	imasvalstr	$⊢ ((\{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}) \cup \{⟨TopSet (ndx), TopOpen (R) qTop F⟩, ⟨\leq_{ndx}, (F \circ \leq_{R}) \circ F^{-1}⟩, ⟨dist (ndx), dist (U)⟩\}) Struct ⟨1, 12⟩$
26		plusgid	$⊢ +_{𝑔} = Slot +_{ndx}$
27		snsstp2	$⊢ \{⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩\} \subseteq \{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\}$
28		ssun1	$⊢ \{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \subseteq \{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}$
29	27 28	sstri	$⊢ \{⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩\} \subseteq \{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}$
30		ssun1	$⊢ \{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\} \subseteq (\{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}) \cup \{⟨TopSet (ndx), TopOpen (R) qTop F⟩, ⟨\leq_{ndx}, (F \circ \leq_{R}) \circ F^{-1}⟩, ⟨dist (ndx), dist (U)⟩\}$
31	29 30	sstri	$⊢ \{⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩\} \subseteq (\{⟨{Base}_{ndx}, B⟩, ⟨+_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}⟩, ⟨\cdot_{ndx}, ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \cdot_{R} q)⟩\}⟩\} \cup \{⟨Scalar (ndx), Scalar (R)⟩, ⟨\cdot_{ndx}, ⋃_{q \in V} (p \in {Base}_{Scalar (R)}, x \in \{F (q)\} ⟼ F (p \cdot_{R} q))⟩, ⟨\cdot_{𝑖} (ndx), ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, p \cdot_{𝑖} (R) q⟩\}⟩\}) \cup \{⟨TopSet (ndx), TopOpen (R) qTop F⟩, ⟨\leq_{ndx}, (F \circ \leq_{R}) \circ F^{-1}⟩, ⟨dist (ndx), dist (U)⟩\}$
32		fvex	$⊢ {Base}_{R} \in V$
33	2 32	eqeltrdi	$⊢ φ \to V \in V$
34		snex	$⊢ \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
35	34	rgenw	$⊢ \forall q \in V \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
36		iunexg	$⊢ (V \in V \land \forall q \in V \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V) \to ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
37	33 35 36	sylancl	$⊢ φ \to ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
38	37	ralrimivw	$⊢ φ \to \forall p \in V ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
39		iunexg	$⊢ (V \in V \land \forall p \in V ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V) \to ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
40	33 38 39	syl2anc	$⊢ φ \to ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\} \in V$
41	23 25 26 31 40 6	strfv3	$⊢ φ \to \underset{˙}{✚} = ⋃_{p \in V} ⋃_{q \in V} \{⟨⟨F (p), F (q)⟩, F (p \underset{˙}{+} q)⟩\}$

Metamath Proof Explorer

Theorem imasplusg

Proof