Proof of Nuprl Lemma : power-set-lift-well-founded-implies

Step * 1 1 1 2 2 of Lemma power-set-lift-well-founded-implies

1. T : Type
2. R : T ⟶ T ⟶ ℙ
3. ∀x:T. (R x x)@i
4. ∀f:ℕ ⟶ P(T). (↓∃n:ℕ. ((power-set-lift(T;R) (f (n + 1)) (f n)) ⇒ (power-set-lift(T;R) (f n) (f (n + 1)))))@i'
5. f : ℕ ⟶ T@i
6. n : ℕ
7. ∀x:T. ((∃i:{n + 1...}. (x = (f i) ∈ T)) ⇒ (∃y:T. ((∃i:{(n + 1) + 1...}. (y = (f i) ∈ T)) ∧ (R x y))))
8. ∃y:T. ((∃i:{(n + 1) + 1...}. (y = (f i) ∈ T)) ∧ (R (f (n + 1)) y))
⊢ ∃i,j:ℕ. (i < j ∧ R[f i;f j])
BY
{ ExRepD }

1
1. T : Type
2. R : T ⟶ T ⟶ ℙ
3. ∀x:T. (R x x)@i
4. ∀f:ℕ ⟶ P(T). (↓∃n:ℕ. ((power-set-lift(T;R) (f (n + 1)) (f n)) ⇒ (power-set-lift(T;R) (f n) (f (n + 1)))))@i'
5. f : ℕ ⟶ T@i
6. n : ℕ
7. ∀x:T. ((∃i:{n + 1...}. (x = (f i) ∈ T)) ⇒ (∃y:T. ((∃i:{(n + 1) + 1...}. (y = (f i) ∈ T)) ∧ (R x y))))
8. y : T
9. i : {(n + 1) + 1...}
10. y = (f i) ∈ T
11. R (f (n + 1)) y
⊢ ∃i,j:ℕ. (i < j ∧ R[f i;f j])

Latex:

Latex:
1. T : Type 2. R : T {}\mrightarrow{} T {}\mrightarrow{} \mBbbP{} 3. \mforall{}x:T. (R x x)@i 4. \mforall{}f:\mBbbN{} {}\mrightarrow{} P(T) (\mdownarrow{}\mexists{}n:\mBbbN{} ((power-set-lift(T;R) (f (n + 1)) (f n)) {}\mRightarrow{} (power-set-lift(T;R) (f n) (f (n + 1)))))@i' 5. f : \mBbbN{} {}\mrightarrow{} T@i 6. n : \mBbbN{} 7. \mforall{}x:T. ((\mexists{}i:\{n + 1...\}. (x = (f i))) {}\mRightarrow{} (\mexists{}y:T. ((\mexists{}i:\{(n + 1) + 1...\}. (y = (f i))) \mwedge{} (R x y)))) 8. \mexists{}y:T. ((\mexists{}i:\{(n + 1) + 1...\}. (y = (f i))) \mwedge{} (R (f (n + 1)) y)) \mvdash{} \mexists{}i,j:\mBbbN{}. (i < j \mwedge{} R[f i;f j]) By Latex: ExRepD Home Index