Proof of Nuprl Lemma : polynom-equal-iff

Step * 1 2 2 1 1 of Lemma polynom-equal-iff

.....assertion.....
1. n : ℤ
2. 0 < n
3. ∀p,q:polynom(n - 1).
((↑poly-zero(n - 1;add-polynom(n - 1;tt;p;minus-polynom(n - 1;q)))) ⇒ (p = q ∈ polynom(n - 1)))
4. p : polynom(n - 1) List
5. q : polynom(n - 1) List
6. ↑poly-zero(n;add-polynom(n;tt;p;minus-polynom(n;q)))
7. p ∈ polynom(n)
8. q ∈ polynom(n)
9. 0 < ||p|| ⇒ (¬↑poly-zero(n - 1;hd(p)))
10. 0 < ||q|| ⇒ (¬↑poly-zero(n - 1;hd(q)))
⊢ ∀q:polynom(n). (||minus-polynom(n;q)|| = ||q|| ∈ ℤ)
BY

{ ((ThinVar `q' THEN (D 0 THENA Auto)) THEN RecUnfold `polynom` (-1) THEN SplitOnHypITE -1  THEN Auto) }

1
.....falsecase.....
1. n : ℤ
2. 0 < n
3. ∀p,q:polynom(n - 1).
((↑poly-zero(n - 1;add-polynom(n - 1;tt;p;minus-polynom(n - 1;q)))) ⇒ (p = q ∈ polynom(n - 1)))
4. p : polynom(n - 1) List
5. p ∈ polynom(n)
6. 0 < ||p|| ⇒ (¬↑poly-zero(n - 1;hd(p)))
7. q : {p:polynom(n - 1) List| polyform-lead-nonzero(n;p)}
8. ¬(n = 0 ∈ ℤ)
⊢ ||minus-polynom(n;q)|| = ||q|| ∈ ℤ

Latex:

Latex:
.....assertion..... 1. n : \mBbbZ{} 2. 0 < n 3. \mforall{}p,q:polynom(n - 1). ((\muparrow{}poly-zero(n - 1;add-polynom(n - 1;tt;p;minus-polynom(n - 1;q)))) {}\mRightarrow{} (p = q)) 4. p : polynom(n - 1) List 5. q : polynom(n - 1) List 6. \muparrow{}poly-zero(n;add-polynom(n;tt;p;minus-polynom(n;q))) 7. p \mmember{} polynom(n) 8. q \mmember{} polynom(n) 9. 0 < ||p|| {}\mRightarrow{} (\mneg{}\muparrow{}poly-zero(n - 1;hd(p))) 10. 0 < ||q|| {}\mRightarrow{} (\mneg{}\muparrow{}poly-zero(n - 1;hd(q))) \mvdash{} \mforall{}q:polynom(n). (||minus-polynom(n;q)|| = ||q||) By Latex: ((ThinVar `q' THEN (D 0 THENA Auto)) THEN RecUnfold `polynom` (-1) THEN SplitOnHypITE -1 THEN Auto) Home Index