Proof of Nuprl Lemma : HofstadterL

Step * 2 2 of Lemma HofstadterL_wf

1. n : ℤ
2. 0 < n
3. HofstadterL(n - 1) ∈ {L:(ℤ × ℤ) List|
(||L|| = ((n - 1) + 1) ∈ ℤ)

                         ∧ (∀i:ℕ(n - 1) + 1. (L[i] = <HofstadterM(n - 1 - i), HofstadterF(n - 1 - i)> ∈ (ℤ × ℤ)))}

4. ¬(n = 1 ∈ ℤ)
⊢ HofstadterL(n) ∈ {L:(ℤ × ℤ) List|

                    (||L|| = (n + 1) ∈ ℤ) ∧ (∀i:ℕn + 1. (L[i] = <HofstadterM(n - i), HofstadterF(n - i)> ∈ (ℤ × ℤ)))}

BY
{ (Assert 1 < n BY
Auto) }

1
1. n : ℤ
2. 0 < n
3. HofstadterL(n - 1) ∈ {L:(ℤ × ℤ) List|
(||L|| = ((n - 1) + 1) ∈ ℤ)

                         ∧ (∀i:ℕ(n - 1) + 1. (L[i] = <HofstadterM(n - 1 - i), HofstadterF(n - 1 - i)> ∈ (ℤ × ℤ)))}

4. ¬(n = 1 ∈ ℤ)
5. 1 < n
⊢ HofstadterL(n) ∈ {L:(ℤ × ℤ) List|

                    (||L|| = (n + 1) ∈ ℤ) ∧ (∀i:ℕn + 1. (L[i] = <HofstadterM(n - i), HofstadterF(n - i)> ∈ (ℤ × ℤ)))}

Latex:

Latex:
1. n : \mBbbZ{} 2. 0 < n 3. HofstadterL(n - 1) \mmember{} \{L:(\mBbbZ{} \mtimes{} \mBbbZ{}) List| (||L|| = ((n - 1) + 1)) \mwedge{} (\mforall{}i:\mBbbN{}(n - 1) + 1 (L[i] = <HofstadterM(n - 1 - i), HofstadterF(n - 1 - i)>))\} 4. \mneg{}(n = 1) \mvdash{} HofstadterL(n) \mmember{} \{L:(\mBbbZ{} \mtimes{} \mBbbZ{}) List| (||L|| = (n + 1)) \mwedge{} (\mforall{}i:\mBbbN{}n + 1. (L[i] = <HofstadterM(n - i), HofstadterF(n - i)>))\} By Latex: (Assert 1 < n BY Auto) Home Index