Metamath Proof Explorer

Theorem isfmlasuc

Description: The characterization of a Godel formula of height at least 1. (Contributed by AV, 14-Oct-2023)

		Ref	Expression
	Assertion	isfmlasuc	$⊢ (N \in ω \land F \in V) \to (F \in Fmla (suc N) \leftrightarrow (F \in Fmla (N) \lor \exists u \in Fmla (N) (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u])))$

Proof

Step	Hyp	Ref	Expression
1		fmlasuc	$⊢ N \in ω \to Fmla (suc N) = Fmla (N) \cup \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}$
2	1	adantr	$⊢ (N \in ω \land F \in V) \to Fmla (suc N) = Fmla (N) \cup \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}$
3	2	eleq2d	$⊢ (N \in ω \land F \in V) \to (F \in Fmla (suc N) \leftrightarrow F \in (Fmla (N) \cup \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}))$
4		elun	$⊢ F \in (Fmla (N) \cup \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}) \leftrightarrow (F \in Fmla (N) \lor F \in \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\})$
5	4	a1i	$⊢ (N \in ω \land F \in V) \to (F \in (Fmla (N) \cup \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}) \leftrightarrow (F \in Fmla (N) \lor F \in \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}))$
6		eqeq1	$⊢ f = F \to (f = u ⊼_{𝑔} v \leftrightarrow F = u ⊼_{𝑔} v)$
7	6	rexbidv	$⊢ f = F \to (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \leftrightarrow \exists v \in Fmla (N) F = u ⊼_{𝑔} v)$
8		eqeq1	$⊢ f = F \to (f = [\forall_{𝑔} i u] \leftrightarrow F = [\forall_{𝑔} i u])$
9	8	rexbidv	$⊢ f = F \to (\exists i \in ω f = [\forall_{𝑔} i u] \leftrightarrow \exists i \in ω F = [\forall_{𝑔} i u])$
10	7 9	orbi12d	$⊢ f = F \to ((\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u]) \leftrightarrow (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u]))$
11	10	rexbidv	$⊢ f = F \to (\exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u]) \leftrightarrow \exists u \in Fmla (N) (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u]))$
12	11	elabg	$⊢ F \in V \to (F \in \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\} \leftrightarrow \exists u \in Fmla (N) (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u]))$
13	12	adantl	$⊢ (N \in ω \land F \in V) \to (F \in \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\} \leftrightarrow \exists u \in Fmla (N) (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u]))$
14	13	orbi2d	$⊢ (N \in ω \land F \in V) \to ((F \in Fmla (N) \lor F \in \{f \| \exists u \in Fmla (N) (\exists v \in Fmla (N) f = u ⊼_{𝑔} v \lor \exists i \in ω f = [\forall_{𝑔} i u])\}) \leftrightarrow (F \in Fmla (N) \lor \exists u \in Fmla (N) (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u])))$
15	3 5 14	3bitrd	$⊢ (N \in ω \land F \in V) \to (F \in Fmla (suc N) \leftrightarrow (F \in Fmla (N) \lor \exists u \in Fmla (N) (\exists v \in Fmla (N) F = u ⊼_{𝑔} v \lor \exists i \in ω F = [\forall_{𝑔} i u])))$