Proof of Nuprl Lemma : partial-int-not-discrete

Step * 1 1 1 1 2 1 2 of Lemma partial-int-not-discrete

1. ∀k:ℕ. (λx.(fix((λf,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) k) ∈ ℝ ⟶ partial(ℤ))

2. λx.(fix((λf,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) 0) ∈ ℝ ⟶ partial(ℤ)
3. x : ℝ
4. y : ℝ
5. x = y
6. ∀x:ℝ. ((r0 < |x|) ⇒ ((λx.(fix((λf,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) 0)) x ~ 1))
7. x1 : ℝ
8. r0 < |x1|
⊢ ((λx.(fix((λf,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) 0)) x1)↓
BY
{ (RWO "-3" 0 THEN Auto) }

Latex:

Latex:
1. \mforall{}k:\mBbbN{}. (\mlambda{}x.(fix((\mlambda{}f,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) k) \mmember{} \mBbbR{} {}\mrightarrow{} partial(\mBbbZ{})) 2. \mlambda{}x.(fix((\mlambda{}f,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) 0) \mmember{} \mBbbR{} {}\mrightarrow{} partial(\mBbbZ{}) 3. x : \mBbbR{} 4. y : \mBbbR{} 5. x = y 6. \mforall{}x:\mBbbR{}. ((r0 < |x|) {}\mRightarrow{} ((\mlambda{}x.(fix((\mlambda{}f,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) 0)) x \msim{} 1)) 7. x1 : \mBbbR{} 8. r0 < |x1| \mvdash{} ((\mlambda{}x.(fix((\mlambda{}f,n. if 4 <z |x (n + 1)| then 1 else f (n + 1) fi )) 0)) x1)\mdownarrow{} By Latex: (RWO "-3" 0 THEN Auto) Home Index