Proof of Nuprl Lemma : cross-product-non-zero-implies

Step * 1 1 1 2 1 1 of Lemma cross-product-non-zero-implies

1. i : ℕ3
2. r : IntegDom{i}
3. ∀x,y:|r|. Dec(x = y ∈ |r|)
4. a : ℕ3 ⟶ |r|
5. b : ℕ3 ⟶ |r|
6. ¬(a = 0 ∈ (ℕ3 ⟶ |r|))
7. ¬(b = 0 ∈ (ℕ3 ⟶ |r|))

8. ∀i:ℕ3. (((a i) = 0 ∈ |r|) ∨ ((b i) = 0 ∈ |r|) ∨ (¬((b i*a) = (a i*b) ∈ (ℕ3 ⟶ |r|))))

9. ∀a:ℕ3 ⟶ |r|. ((¬(a = 0 ∈ (ℕ3 ⟶ |r|))) ⇒ (∃i:ℕ3. (¬((a i) = 0 ∈ |r|))))
10. ∀x,y:|r|. ((x +r (-r y)) = 0 ∈ |r| ⇐⇒ x = y ∈ |r|)
11. ¬((a i) = 0 ∈ |r|)
12. ¬((b i) = 0 ∈ |r|)

⊢ ∃l:{p:ℕ3 ⟶ |r|| ¬(p = 0 ∈ (ℕ3 ⟶ |r|))}  [(((a . l) = 0 ∈ |r|) ∧ (¬((b . l) = 0 ∈ |r|)))]

BY
{ ((D 8 With ⌜i⌝  THENA Auto) THEN SplitOrHyps THEN Auto) }

1
1. i : ℕ3
2. r : IntegDom{i}
3. ∀x,y:|r|.  Dec(x = y ∈ |r|)
4. a : ℕ3 ⟶ |r|
5. b : ℕ3 ⟶ |r|
6. ¬(a = 0 ∈ (ℕ3 ⟶ |r|))
7. ¬(b = 0 ∈ (ℕ3 ⟶ |r|))
8. ∀a:ℕ3 ⟶ |r|. ((¬(a = 0 ∈ (ℕ3 ⟶ |r|))) ⇒ (∃i:ℕ3. (¬((a i) = 0 ∈ |r|))))
9. ∀x,y:|r|.  ((x +r (-r y)) = 0 ∈ |r| ⇐⇒ x = y ∈ |r|)
10. ¬((a i) = 0 ∈ |r|)
11. ¬((b i) = 0 ∈ |r|)
12. ¬((b i*a) = (a i*b) ∈ (ℕ3 ⟶ |r|))

⊢ ∃l:{p:ℕ3 ⟶ |r|| ¬(p = 0 ∈ (ℕ3 ⟶ |r|))}  [(((a . l) = 0 ∈ |r|) ∧ (¬((b . l) = 0 ∈ |r|)))]

Latex:

Latex:
1. i : \mBbbN{}3 2. r : IntegDom\{i\} 3. \mforall{}x,y:|r|. Dec(x = y) 4. a : \mBbbN{}3 {}\mrightarrow{} |r| 5. b : \mBbbN{}3 {}\mrightarrow{} |r| 6. \mneg{}(a = 0) 7. \mneg{}(b = 0) 8. \mforall{}i:\mBbbN{}3. (((a i) = 0) \mvee{} ((b i) = 0) \mvee{} (\mneg{}((b i*a) = (a i*b)))) 9. \mforall{}a:\mBbbN{}3 {}\mrightarrow{} |r|. ((\mneg{}(a = 0)) {}\mRightarrow{} (\mexists{}i:\mBbbN{}3. (\mneg{}((a i) = 0)))) 10. \mforall{}x,y:|r|. ((x +r (-r y)) = 0 \mLeftarrow{}{}\mRightarrow{} x = y) 11. \mneg{}((a i) = 0) 12. \mneg{}((b i) = 0) \mvdash{} \mexists{}l:\{p:\mBbbN{}3 {}\mrightarrow{} |r|| \mneg{}(p = 0)\} [(((a . l) = 0) \mwedge{} (\mneg{}((b . l) = 0)))] By Latex: ((D 8 With \mkleeneopen{}i\mkleeneclose{} THENA Auto) THEN SplitOrHyps THEN Auto) Home Index