archnq

Description: For any fraction, there is an integer that is greater than it. This is also known as the "archimedean property". (Contributed by Mario Carneiro, 10-May-2013) (New usage is discouraged.)

		Ref	Expression
	Assertion	archnq	$⊢ A \in 𝑸 \to \exists x \in 𝑵 A <_{𝑸} ⟨x, 1_{𝑜}⟩$

Proof

Step	Hyp	Ref	Expression
1		elpqn	$⊢ A \in 𝑸 \to A \in (𝑵 \times 𝑵)$
2		xp1st	$⊢ A \in (𝑵 \times 𝑵) \to 1^{st} (A) \in 𝑵$
3	1 2	syl	$⊢ A \in 𝑸 \to 1^{st} (A) \in 𝑵$
4		1pi	$⊢ 1_{𝑜} \in 𝑵$
5		addclpi	$⊢ (1^{st} (A) \in 𝑵 \land 1_{𝑜} \in 𝑵) \to 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵$
6	3 4 5	sylancl	$⊢ A \in 𝑸 \to 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵$
7		xp2nd	$⊢ A \in (𝑵 \times 𝑵) \to 2^{nd} (A) \in 𝑵$
8	1 7	syl	$⊢ A \in 𝑸 \to 2^{nd} (A) \in 𝑵$
9		mulclpi	$⊢ (1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵 \land 2^{nd} (A) \in 𝑵) \to (1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A) \in 𝑵$
10	6 8 9	syl2anc	$⊢ A \in 𝑸 \to (1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A) \in 𝑵$
11		eqid	$⊢ 1^{st} (A) +_{𝑵} 1_{𝑜} = 1^{st} (A) +_{𝑵} 1_{𝑜}$
12		oveq2	$⊢ x = 1_{𝑜} \to 1^{st} (A) +_{𝑵} x = 1^{st} (A) +_{𝑵} 1_{𝑜}$
13	12	eqeq1d	$⊢ x = 1_{𝑜} \to (1^{st} (A) +_{𝑵} x = 1^{st} (A) +_{𝑵} 1_{𝑜} \leftrightarrow 1^{st} (A) +_{𝑵} 1_{𝑜} = 1^{st} (A) +_{𝑵} 1_{𝑜})$
14	13	rspcev	$⊢ (1_{𝑜} \in 𝑵 \land 1^{st} (A) +_{𝑵} 1_{𝑜} = 1^{st} (A) +_{𝑵} 1_{𝑜}) \to \exists x \in 𝑵 1^{st} (A) +_{𝑵} x = 1^{st} (A) +_{𝑵} 1_{𝑜}$
15	4 11 14	mp2an	$⊢ \exists x \in 𝑵 1^{st} (A) +_{𝑵} x = 1^{st} (A) +_{𝑵} 1_{𝑜}$
16		ltexpi	$⊢ (1^{st} (A) \in 𝑵 \land 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵) \to (1^{st} (A) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜}) \leftrightarrow \exists x \in 𝑵 1^{st} (A) +_{𝑵} x = 1^{st} (A) +_{𝑵} 1_{𝑜})$
17	15 16	mpbiri	$⊢ (1^{st} (A) \in 𝑵 \land 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵) \to 1^{st} (A) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜})$
18	3 6 17	syl2anc	$⊢ A \in 𝑸 \to 1^{st} (A) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜})$
19		nlt1pi	$⊢ \neg 2^{nd} (A) <_{𝑵} 1_{𝑜}$
20		ltmpi	$⊢ 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵 \to (2^{nd} (A) <_{𝑵} 1_{𝑜} \leftrightarrow ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 1_{𝑜}))$
21	6 20	syl	$⊢ A \in 𝑸 \to (2^{nd} (A) <_{𝑵} 1_{𝑜} \leftrightarrow ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 1_{𝑜}))$
22		mulidpi	$⊢ 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵 \to (1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 1_{𝑜} = 1^{st} (A) +_{𝑵} 1_{𝑜}$
23	6 22	syl	$⊢ A \in 𝑸 \to (1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 1_{𝑜} = 1^{st} (A) +_{𝑵} 1_{𝑜}$
24	23	breq2d	$⊢ A \in 𝑸 \to (((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 1_{𝑜}) \leftrightarrow ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜}))$
25	21 24	bitrd	$⊢ A \in 𝑸 \to (2^{nd} (A) <_{𝑵} 1_{𝑜} \leftrightarrow ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜}))$
26	19 25	mtbii	$⊢ A \in 𝑸 \to \neg ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜})$
27		ltsopi	$⊢ <_{𝑵} Or 𝑵$
28		ltrelpi	$⊢ <_{𝑵} \subseteq 𝑵 \times 𝑵$
29	27 28	sotri3	$⊢ ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A) \in 𝑵 \land 1^{st} (A) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜}) \land \neg ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)) <_{𝑵} (1^{st} (A) +_{𝑵} 1_{𝑜})) \to 1^{st} (A) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A))$
30	10 18 26 29	syl3anc	$⊢ A \in 𝑸 \to 1^{st} (A) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A))$
31		pinq	$⊢ 1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵 \to ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩ \in 𝑸$
32	6 31	syl	$⊢ A \in 𝑸 \to ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩ \in 𝑸$
33		ordpinq	$⊢ (A \in 𝑸 \land ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩ \in 𝑸) \to (A <_{𝑸} ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩ \leftrightarrow (1^{st} (A) \cdot_{𝑵} 2^{nd} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩)) <_{𝑵} (1^{st} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) \cdot_{𝑵} 2^{nd} (A)))$
34	32 33	mpdan	$⊢ A \in 𝑸 \to (A <_{𝑸} ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩ \leftrightarrow (1^{st} (A) \cdot_{𝑵} 2^{nd} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩)) <_{𝑵} (1^{st} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) \cdot_{𝑵} 2^{nd} (A)))$
35		ovex	$⊢ 1^{st} (A) +_{𝑵} 1_{𝑜} \in V$
36		1oex	$⊢ 1_{𝑜} \in V$
37	35 36	op2nd	$⊢ 2^{nd} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) = 1_{𝑜}$
38	37	oveq2i	$⊢ 1^{st} (A) \cdot_{𝑵} 2^{nd} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) = 1^{st} (A) \cdot_{𝑵} 1_{𝑜}$
39		mulidpi	$⊢ 1^{st} (A) \in 𝑵 \to 1^{st} (A) \cdot_{𝑵} 1_{𝑜} = 1^{st} (A)$
40	3 39	syl	$⊢ A \in 𝑸 \to 1^{st} (A) \cdot_{𝑵} 1_{𝑜} = 1^{st} (A)$
41	38 40	eqtrid	$⊢ A \in 𝑸 \to 1^{st} (A) \cdot_{𝑵} 2^{nd} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) = 1^{st} (A)$
42	35 36	op1st	$⊢ 1^{st} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) = 1^{st} (A) +_{𝑵} 1_{𝑜}$
43	42	oveq1i	$⊢ 1^{st} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) \cdot_{𝑵} 2^{nd} (A) = (1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)$
44	43	a1i	$⊢ A \in 𝑸 \to 1^{st} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) \cdot_{𝑵} 2^{nd} (A) = (1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)$
45	41 44	breq12d	$⊢ A \in 𝑸 \to ((1^{st} (A) \cdot_{𝑵} 2^{nd} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩)) <_{𝑵} (1^{st} (⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) \cdot_{𝑵} 2^{nd} (A)) \leftrightarrow 1^{st} (A) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)))$
46	34 45	bitrd	$⊢ A \in 𝑸 \to (A <_{𝑸} ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩ \leftrightarrow 1^{st} (A) <_{𝑵} ((1^{st} (A) +_{𝑵} 1_{𝑜}) \cdot_{𝑵} 2^{nd} (A)))$
47	30 46	mpbird	$⊢ A \in 𝑸 \to A <_{𝑸} ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩$
48		opeq1	$⊢ x = 1^{st} (A) +_{𝑵} 1_{𝑜} \to ⟨x, 1_{𝑜}⟩ = ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩$
49	48	breq2d	$⊢ x = 1^{st} (A) +_{𝑵} 1_{𝑜} \to (A <_{𝑸} ⟨x, 1_{𝑜}⟩ \leftrightarrow A <_{𝑸} ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩)$
50	49	rspcev	$⊢ (1^{st} (A) +_{𝑵} 1_{𝑜} \in 𝑵 \land A <_{𝑸} ⟨1^{st} (A) +_{𝑵} 1_{𝑜}, 1_{𝑜}⟩) \to \exists x \in 𝑵 A <_{𝑸} ⟨x, 1_{𝑜}⟩$
51	6 47 50	syl2anc	$⊢ A \in 𝑸 \to \exists x \in 𝑵 A <_{𝑸} ⟨x, 1_{𝑜}⟩$

Metamath Proof Explorer

Theorem archnq

Proof