Proof of Nuprl Lemma : cross-product-equal-0

Step * 2 1 1 1 1 of Lemma cross-product-equal-0

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

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

6. ((a x b) = 0 ∈ (ℕ3 ⟶ |r|)) ⇐ (a = 0 ∈ (ℕ3 ⟶ |r|))
∨ (b = 0 ∈ (ℕ3 ⟶ |r|))

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

7. c1 : |r|
8. c2 : |r|
9. ¬(c1 = 0 ∈ |r|)
10. ¬(c2 = 0 ∈ |r|)
11. (c1*a) = (c2*b) ∈ (ℕ3 ⟶ |r|)
12. (c1 * c2*(a x b)) = 0 ∈ (ℕ3 ⟶ |r|)
13. x : ℕ3
14. ((c1 * c2) * ((a x b) x)) = 0 ∈ |r|
⊢ ((a x b) x) = 0 ∈ |r|
BY

{ ((Assert (((a x b) x) * (c1 * c2)) = 0 ∈ |r| BY Auto) THEN DVar `r' THEN D 2 THEN FHyp 3 [-1] THEN Auto) }

Latex:

Latex:
1. r : IntegDom\{i\} 2. a : \mBbbN{}3 {}\mrightarrow{} |r| 3. b : \mBbbN{}3 {}\mrightarrow{} |r| 4. \mforall{}x,y:|r|. Dec(x = y) 5. ((a x b) = 0) {}\mRightarrow{} ((a = 0) \mvee{} (b = 0) \mvee{} (\mexists{}i:\mBbbN{}3. ((\mneg{}((b i) = 0)) \mwedge{} (\mneg{}((a i) = 0)) \mwedge{} ((b i*a) = (a i*b))))) 6. ((a x b) = 0) \mLeftarrow{}{} (a = 0) \mvee{} (b = 0) \mvee{} (\mexists{}i:\mBbbN{}3. ((\mneg{}((b i) = 0)) \mwedge{} (\mneg{}((a i) = 0)) \mwedge{} ((b i*a) = (a i*b)))) 7. c1 : |r| 8. c2 : |r| 9. \mneg{}(c1 = 0) 10. \mneg{}(c2 = 0) 11. (c1*a) = (c2*b) 12. (c1 * c2*(a x b)) = 0 13. x : \mBbbN{}3 14. ((c1 * c2) * ((a x b) x)) = 0 \mvdash{} ((a x b) x) = 0 By Latex: ((Assert (((a x b) x) * (c1 * c2)) = 0 BY Auto) THEN DVar `r' THEN D 2 THEN FHyp 3 [-1] THEN Auto) Home Index