Metamath Proof Explorer

Theorem mdegxrcl

Description: Closure of polynomial degree in the extended reals. (Contributed by Stefan O'Rear, 19-Mar-2015) (Proof shortened by AV, 27-Jul-2019)

		Ref	Expression
	Hypotheses	mdegxrcl.d	$⊢ D = I mDeg R$
		mdegxrcl.p	$⊢ P = I mPoly R$
		mdegxrcl.b	$⊢ B = {Base}_{P}$
	Assertion	mdegxrcl	$⊢ F \in B \to D (F) \in ℝ^{*}$

Proof

Step	Hyp	Ref	Expression
1		mdegxrcl.d	$⊢ D = I mDeg R$
2		mdegxrcl.p	$⊢ P = I mPoly R$
3		mdegxrcl.b	$⊢ B = {Base}_{P}$
4		eqid	$⊢ 0_{R} = 0_{R}$
5		eqid	$⊢ \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} = \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\}$
6		eqid	$⊢ (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) = (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y)$
7	1 2 3 4 5 6	mdegval	$⊢ F \in B \to D (F) = sup ((y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) [F supp 0_{R}] ℝ^{*} <)$
8		imassrn	$⊢ (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) [F supp 0_{R}] \subseteq ran (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y)$
9	5 6	tdeglem1	$⊢ (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) : \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟶ ℕ_{0}$
10		frn	$⊢ (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) : \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟶ ℕ_{0} \to ran (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) \subseteq ℕ_{0}$
11	9 10	mp1i	$⊢ F \in B \to ran (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) \subseteq ℕ_{0}$
12		nn0ssre	$⊢ ℕ_{0} \subseteq ℝ$
13		ressxr	$⊢ ℝ \subseteq ℝ^{*}$
14	12 13	sstri	$⊢ ℕ_{0} \subseteq ℝ^{*}$
15	11 14	sstrdi	$⊢ F \in B \to ran (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) \subseteq ℝ^{*}$
16	8 15	sstrid	$⊢ F \in B \to (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) [F supp 0_{R}] \subseteq ℝ^{*}$
17		supxrcl	$⊢ (y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) [F supp 0_{R}] \subseteq ℝ^{} \to sup ((y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) [F supp 0_{R}] ℝ^{} <) \in ℝ^{*}$
18	16 17	syl	$⊢ F \in B \to sup ((y \in \{x \in ({ℕ_{0}}^{I}) \| x^{-1} [ℕ] \in Fin\} ⟼ \sum_{ℂ_{fld}} y) [F supp 0_{R}] ℝ^{} <) \in ℝ^{}$
19	7 18	eqeltrd	$⊢ F \in B \to D (F) \in ℝ^{*}$