intubeu

Description: Existential uniqueness of the least upper bound. (Contributed by Zhi Wang, 28-Sep-2024)

		Ref	Expression
	Assertion	intubeu	$⊢ C \in B \to ((A \subseteq C \land \forall y \in B (A \subseteq y \to C \subseteq y)) \leftrightarrow C = ⋂ \{x \in B \| A \subseteq x\})$

Proof

Step	Hyp	Ref	Expression
1		ssint	$⊢ C \subseteq ⋂ \{x \in B \| A \subseteq x\} \leftrightarrow \forall y \in \{x \in B \| A \subseteq x\} C \subseteq y$
2		sseq2	$⊢ x = y \to (A \subseteq x \leftrightarrow A \subseteq y)$
3	2	ralrab	$⊢ \forall y \in \{x \in B \| A \subseteq x\} C \subseteq y \leftrightarrow \forall y \in B (A \subseteq y \to C \subseteq y)$
4	1 3	bitri	$⊢ C \subseteq ⋂ \{x \in B \| A \subseteq x\} \leftrightarrow \forall y \in B (A \subseteq y \to C \subseteq y)$
5	4	biimpri	$⊢ \forall y \in B (A \subseteq y \to C \subseteq y) \to C \subseteq ⋂ \{x \in B \| A \subseteq x\}$
6	5	adantl	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to C \subseteq ⋂ \{x \in B \| A \subseteq x\}$
7		sseq2	$⊢ z = C \to (A \subseteq z \leftrightarrow A \subseteq C)$
8		simpll	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to C \in B$
9		simplr	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to A \subseteq C$
10	7 8 9	elrabd	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to C \in \{z \in B \| A \subseteq z\}$
11		sseq2	$⊢ z = x \to (A \subseteq z \leftrightarrow A \subseteq x)$
12	11	cbvrabv	$⊢ \{z \in B \| A \subseteq z\} = \{x \in B \| A \subseteq x\}$
13	10 12	eleqtrdi	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to C \in \{x \in B \| A \subseteq x\}$
14		intss1	$⊢ C \in \{x \in B \| A \subseteq x\} \to ⋂ \{x \in B \| A \subseteq x\} \subseteq C$
15	13 14	syl	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to ⋂ \{x \in B \| A \subseteq x\} \subseteq C$
16	6 15	eqssd	$⊢ ((C \in B \land A \subseteq C) \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to C = ⋂ \{x \in B \| A \subseteq x\}$
17	16	expl	$⊢ C \in B \to ((A \subseteq C \land \forall y \in B (A \subseteq y \to C \subseteq y)) \to C = ⋂ \{x \in B \| A \subseteq x\})$
18		ssintub	$⊢ A \subseteq ⋂ \{x \in B \| A \subseteq x\}$
19		sseq2	$⊢ C = ⋂ \{x \in B \| A \subseteq x\} \to (A \subseteq C \leftrightarrow A \subseteq ⋂ \{x \in B \| A \subseteq x\})$
20	18 19	mpbiri	$⊢ C = ⋂ \{x \in B \| A \subseteq x\} \to A \subseteq C$
21		eqimss	$⊢ C = ⋂ \{x \in B \| A \subseteq x\} \to C \subseteq ⋂ \{x \in B \| A \subseteq x\}$
22	21 4	sylib	$⊢ C = ⋂ \{x \in B \| A \subseteq x\} \to \forall y \in B (A \subseteq y \to C \subseteq y)$
23	20 22	jca	$⊢ C = ⋂ \{x \in B \| A \subseteq x\} \to (A \subseteq C \land \forall y \in B (A \subseteq y \to C \subseteq y))$
24	17 23	impbid1	$⊢ C \in B \to ((A \subseteq C \land \forall y \in B (A \subseteq y \to C \subseteq y)) \leftrightarrow C = ⋂ \{x \in B \| A \subseteq x\})$

Metamath Proof Explorer

Theorem intubeu

Proof