Proof of Nuprl Lemma : satisfies-gcd-reduce-eq-constraints

Step * 2 of Lemma satisfies-gcd-reduce-eq-constraints

1. n : ℕ⁺
2. eqs : {L:ℤ List| ||L|| = n ∈ ℤ} List
3. sat : {L:ℤ List| ||L|| = n ∈ ℤ} List
4. xs : {L:ℤ List| ||L|| = n ∈ ℤ}
5. (∀as∈sat.xs ⋅ as =0) ∧ 0 < ||xs|| ∧ (hd(xs) = 1 ∈ ℤ)

6. (↑isl(gcd-reduce-eq-constraints(sat;eqs))) ∧ (∀as∈outl(gcd-reduce-eq-constraints(sat;eqs)).xs ⋅ as =0)

⊢ (∀as∈eqs.xs ⋅ as =0)
BY
{ (D -1 THEN RepeatFor 2 (MoveToConcl (-1))) }

1
1. n : ℕ⁺
2. eqs : {L:ℤ List| ||L|| = n ∈ ℤ} List
3. sat : {L:ℤ List| ||L|| = n ∈ ℤ} List
4. xs : {L:ℤ List| ||L|| = n ∈ ℤ}
5. (∀as∈sat.xs ⋅ as =0) ∧ 0 < ||xs|| ∧ (hd(xs) = 1 ∈ ℤ)
⊢ (↑isl(gcd-reduce-eq-constraints(sat;eqs)))
⇒ (∀as∈outl(gcd-reduce-eq-constraints(sat;eqs)).xs ⋅ as =0)
⇒ (∀as∈eqs.xs ⋅ as =0)

Latex:

Latex:
1. n : \mBbbN{}\msupplus{} 2. eqs : \{L:\mBbbZ{} List| ||L|| = n\} List 3. sat : \{L:\mBbbZ{} List| ||L|| = n\} List 4. xs : \{L:\mBbbZ{} List| ||L|| = n\} 5. (\mforall{}as\mmember{}sat.xs \mcdot{} as =0) \mwedge{} 0 < ||xs|| \mwedge{} (hd(xs) = 1) 6. (\muparrow{}isl(gcd-reduce-eq-constraints(sat;eqs))) \mwedge{} (\mforall{}as\mmember{}outl(gcd-reduce-eq-constraints(sat;eqs)).xs \mcdot{} as =0) \mvdash{} (\mforall{}as\mmember{}eqs.xs \mcdot{} as =0) By Latex: (D -1 THEN RepeatFor 2 (MoveToConcl (-1))) Home Index