cncfi

Description: Defining property of a continuous function. (Contributed by Mario Carneiro, 30-Apr-2014) (Revised by Mario Carneiro, 25-Aug-2014)

		Ref	Expression
	Assertion	cncfi	$⊢ (F : A \underset{cn}{⟶} B \land C \in A \land R \in ℝ^{+}) \to \exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < R)$

Proof

Step	Hyp	Ref	Expression
1		cncfrss	$⊢ F : A \underset{cn}{⟶} B \to A \subseteq ℂ$
2		cncfrss2	$⊢ F : A \underset{cn}{⟶} B \to B \subseteq ℂ$
3		elcncf2	$⊢ (A \subseteq ℂ \land B \subseteq ℂ) \to (F : A \underset{cn}{⟶} B \leftrightarrow (F : A ⟶ B \land \forall x \in A \forall y \in ℝ^{+} \exists z \in ℝ^{+} \forall w \in A (\|w - x\| < z \to \|F (w) - F (x)\| < y)))$
4	1 2 3	syl2anc	$⊢ F : A \underset{cn}{⟶} B \to (F : A \underset{cn}{⟶} B \leftrightarrow (F : A ⟶ B \land \forall x \in A \forall y \in ℝ^{+} \exists z \in ℝ^{+} \forall w \in A (\|w - x\| < z \to \|F (w) - F (x)\| < y)))$
5	4	ibi	$⊢ F : A \underset{cn}{⟶} B \to (F : A ⟶ B \land \forall x \in A \forall y \in ℝ^{+} \exists z \in ℝ^{+} \forall w \in A (\|w - x\| < z \to \|F (w) - F (x)\| < y))$
6	5	simprd	$⊢ F : A \underset{cn}{⟶} B \to \forall x \in A \forall y \in ℝ^{+} \exists z \in ℝ^{+} \forall w \in A (\|w - x\| < z \to \|F (w) - F (x)\| < y)$
7		oveq2	$⊢ x = C \to w - x = w - C$
8	7	fveq2d	$⊢ x = C \to \|w - x\| = \|w - C\|$
9	8	breq1d	$⊢ x = C \to (\|w - x\| < z \leftrightarrow \|w - C\| < z)$
10		fveq2	$⊢ x = C \to F (x) = F (C)$
11	10	oveq2d	$⊢ x = C \to F (w) - F (x) = F (w) - F (C)$
12	11	fveq2d	$⊢ x = C \to \|F (w) - F (x)\| = \|F (w) - F (C)\|$
13	12	breq1d	$⊢ x = C \to (\|F (w) - F (x)\| < y \leftrightarrow \|F (w) - F (C)\| < y)$
14	9 13	imbi12d	$⊢ x = C \to ((\|w - x\| < z \to \|F (w) - F (x)\| < y) \leftrightarrow (\|w - C\| < z \to \|F (w) - F (C)\| < y))$
15	14	rexralbidv	$⊢ x = C \to (\exists z \in ℝ^{+} \forall w \in A (\|w - x\| < z \to \|F (w) - F (x)\| < y) \leftrightarrow \exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < y))$
16		breq2	$⊢ y = R \to (\|F (w) - F (C)\| < y \leftrightarrow \|F (w) - F (C)\| < R)$
17	16	imbi2d	$⊢ y = R \to ((\|w - C\| < z \to \|F (w) - F (C)\| < y) \leftrightarrow (\|w - C\| < z \to \|F (w) - F (C)\| < R))$
18	17	rexralbidv	$⊢ y = R \to (\exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < y) \leftrightarrow \exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < R))$
19	15 18	rspc2v	$⊢ (C \in A \land R \in ℝ^{+}) \to (\forall x \in A \forall y \in ℝ^{+} \exists z \in ℝ^{+} \forall w \in A (\|w - x\| < z \to \|F (w) - F (x)\| < y) \to \exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < R))$
20	6 19	mpan9	$⊢ (F : A \underset{cn}{⟶} B \land (C \in A \land R \in ℝ^{+})) \to \exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < R)$
21	20	3impb	$⊢ (F : A \underset{cn}{⟶} B \land C \in A \land R \in ℝ^{+}) \to \exists z \in ℝ^{+} \forall w \in A (\|w - C\| < z \to \|F (w) - F (C)\| < R)$

Metamath Proof Explorer

Theorem cncfi

Proof