joinlem

Description: Lemma for join properties. (Contributed by NM, 16-Sep-2011) (Revised by NM, 12-Sep-2018)

	Ref	Expression
Hypotheses	joinval2.b	$⊢ B = {Base}_{K}$
	joinval2.l	$⊢ \underset{˙}{\leq} = \leq_{K}$
	joinval2.j	$⊢ \underset{˙}{\lor} = join (K)$
	joinval2.k	$⊢ φ \to K \in V$
	joinval2.x	$⊢ φ \to X \in B$
	joinval2.y	$⊢ φ \to Y \in B$
	joinlem.e	$⊢ φ \to ⟨X, Y⟩ \in dom \underset{˙}{\lor}$
Assertion	joinlem	$⊢ φ \to ((X \underset{˙}{\leq} (X \underset{˙}{\lor} Y) \land Y \underset{˙}{\leq} (X \underset{˙}{\lor} Y)) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z))$

Proof

Step	Hyp	Ref	Expression
1		joinval2.b	$⊢ B = {Base}_{K}$
2		joinval2.l	$⊢ \underset{˙}{\leq} = \leq_{K}$
3		joinval2.j	$⊢ \underset{˙}{\lor} = join (K)$
4		joinval2.k	$⊢ φ \to K \in V$
5		joinval2.x	$⊢ φ \to X \in B$
6		joinval2.y	$⊢ φ \to Y \in B$
7		joinlem.e	$⊢ φ \to ⟨X, Y⟩ \in dom \underset{˙}{\lor}$
8	1 2 3 4 5 6 7	joineu	$⊢ φ \to \exists! x \in B ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))$
9		riotasbc	$⊢ \exists! x \in B ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z)) \to \underset{˙}{[} (ι x \in B \| ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))) / x \underset{˙}{]} ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))$
10	8 9	syl	$⊢ φ \to \underset{˙}{[} (ι x \in B \| ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))) / x \underset{˙}{]} ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))$
11	1 2 3 4 5 6	joinval2	$⊢ φ \to X \underset{˙}{\lor} Y = (ι x \in B \| ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z)))$
12	11	sbceq1d	$⊢ φ \to (\underset{˙}{[} (X \underset{˙}{\lor} Y) / x \underset{˙}{]} ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z)) \leftrightarrow \underset{˙}{[} (ι x \in B \| ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))) / x \underset{˙}{]} ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z)))$
13	10 12	mpbird	$⊢ φ \to \underset{˙}{[} (X \underset{˙}{\lor} Y) / x \underset{˙}{]} ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z))$
14		ovex	$⊢ X \underset{˙}{\lor} Y \in V$
15		breq2	$⊢ x = X \underset{˙}{\lor} Y \to (X \underset{˙}{\leq} x \leftrightarrow X \underset{˙}{\leq} (X \underset{˙}{\lor} Y))$
16		breq2	$⊢ x = X \underset{˙}{\lor} Y \to (Y \underset{˙}{\leq} x \leftrightarrow Y \underset{˙}{\leq} (X \underset{˙}{\lor} Y))$
17	15 16	anbi12d	$⊢ x = X \underset{˙}{\lor} Y \to ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \leftrightarrow (X \underset{˙}{\leq} (X \underset{˙}{\lor} Y) \land Y \underset{˙}{\leq} (X \underset{˙}{\lor} Y)))$
18		breq1	$⊢ x = X \underset{˙}{\lor} Y \to (x \underset{˙}{\leq} z \leftrightarrow (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z)$
19	18	imbi2d	$⊢ x = X \underset{˙}{\lor} Y \to (((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z) \leftrightarrow ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z))$
20	19	ralbidv	$⊢ x = X \underset{˙}{\lor} Y \to (\forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z) \leftrightarrow \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z))$
21	17 20	anbi12d	$⊢ x = X \underset{˙}{\lor} Y \to (((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z)) \leftrightarrow ((X \underset{˙}{\leq} (X \underset{˙}{\lor} Y) \land Y \underset{˙}{\leq} (X \underset{˙}{\lor} Y)) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z)))$
22	14 21	sbcie	$⊢ \underset{˙}{[} (X \underset{˙}{\lor} Y) / x \underset{˙}{]} ((X \underset{˙}{\leq} x \land Y \underset{˙}{\leq} x) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to x \underset{˙}{\leq} z)) \leftrightarrow ((X \underset{˙}{\leq} (X \underset{˙}{\lor} Y) \land Y \underset{˙}{\leq} (X \underset{˙}{\lor} Y)) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z))$
23	13 22	sylib	$⊢ φ \to ((X \underset{˙}{\leq} (X \underset{˙}{\lor} Y) \land Y \underset{˙}{\leq} (X \underset{˙}{\lor} Y)) \land \forall z \in B ((X \underset{˙}{\leq} z \land Y \underset{˙}{\leq} z) \to (X \underset{˙}{\lor} Y) \underset{˙}{\leq} z))$

Metamath Proof Explorer

Theorem joinlem

Proof