fopwdom

Description: Covering implies injection on power sets. (Contributed by Stefan O'Rear, 6-Nov-2014) (Revised by Mario Carneiro, 24-Jun-2015) (Revised by AV, 18-Sep-2021)

		Ref	Expression
	Assertion	fopwdom	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to 𝒫 B ≼ 𝒫 A$

Proof

Step	Hyp	Ref	Expression
1		imassrn	$⊢ F^{-1} [a] \subseteq ran F^{-1}$
2		dfdm4	$⊢ dom F = ran F^{-1}$
3		fof	$⊢ F : A \underset{onto}{⟶} B \to F : A ⟶ B$
4	3	fdmd	$⊢ F : A \underset{onto}{⟶} B \to dom F = A$
5	2 4	eqtr3id	$⊢ F : A \underset{onto}{⟶} B \to ran F^{-1} = A$
6	1 5	sseqtrid	$⊢ F : A \underset{onto}{⟶} B \to F^{-1} [a] \subseteq A$
7	6	adantl	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to F^{-1} [a] \subseteq A$
8		cnvexg	$⊢ F \in V \to F^{-1} \in V$
9	8	adantr	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to F^{-1} \in V$
10		imaexg	$⊢ F^{-1} \in V \to F^{-1} [a] \in V$
11		elpwg	$⊢ F^{-1} [a] \in V \to (F^{-1} [a] \in 𝒫 A \leftrightarrow F^{-1} [a] \subseteq A)$
12	9 10 11	3syl	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to (F^{-1} [a] \in 𝒫 A \leftrightarrow F^{-1} [a] \subseteq A)$
13	7 12	mpbird	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to F^{-1} [a] \in 𝒫 A$
14	13	a1d	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to (a \in 𝒫 B \to F^{-1} [a] \in 𝒫 A)$
15		imaeq2	$⊢ F^{-1} [a] = F^{-1} [b] \to F [F^{-1} [a]] = F [F^{-1} [b]]$
16	15	adantl	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to F [F^{-1} [a]] = F [F^{-1} [b]]$
17		simpllr	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to F : A \underset{onto}{⟶} B$
18		simplrl	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to a \in 𝒫 B$
19	18	elpwid	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to a \subseteq B$
20		foimacnv	$⊢ (F : A \underset{onto}{⟶} B \land a \subseteq B) \to F [F^{-1} [a]] = a$
21	17 19 20	syl2anc	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to F [F^{-1} [a]] = a$
22		simplrr	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to b \in 𝒫 B$
23	22	elpwid	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to b \subseteq B$
24		foimacnv	$⊢ (F : A \underset{onto}{⟶} B \land b \subseteq B) \to F [F^{-1} [b]] = b$
25	17 23 24	syl2anc	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to F [F^{-1} [b]] = b$
26	16 21 25	3eqtr3d	$⊢ (((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \land F^{-1} [a] = F^{-1} [b]) \to a = b$
27	26	ex	$⊢ ((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \to (F^{-1} [a] = F^{-1} [b] \to a = b)$
28		imaeq2	$⊢ a = b \to F^{-1} [a] = F^{-1} [b]$
29	27 28	impbid1	$⊢ ((F \in V \land F : A \underset{onto}{⟶} B) \land (a \in 𝒫 B \land b \in 𝒫 B)) \to (F^{-1} [a] = F^{-1} [b] \leftrightarrow a = b)$
30	29	ex	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to ((a \in 𝒫 B \land b \in 𝒫 B) \to (F^{-1} [a] = F^{-1} [b] \leftrightarrow a = b))$
31		rnexg	$⊢ F \in V \to ran F \in V$
32		forn	$⊢ F : A \underset{onto}{⟶} B \to ran F = B$
33	32	eleq1d	$⊢ F : A \underset{onto}{⟶} B \to (ran F \in V \leftrightarrow B \in V)$
34	31 33	syl5ibcom	$⊢ F \in V \to (F : A \underset{onto}{⟶} B \to B \in V)$
35	34	imp	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to B \in V$
36	35	pwexd	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to 𝒫 B \in V$
37		dmfex	$⊢ (F \in V \land F : A ⟶ B) \to A \in V$
38	3 37	sylan2	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to A \in V$
39	38	pwexd	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to 𝒫 A \in V$
40	14 30 36 39	dom3d	$⊢ (F \in V \land F : A \underset{onto}{⟶} B) \to 𝒫 B ≼ 𝒫 A$

Metamath Proof Explorer

Theorem fopwdom

Proof