Proof of Nuprl Lemma : meq-in-0-dim-cube

Step * 1 1 of Lemma meq-in-0-dim-cube

1. k : ℕ
2. c : ℚCube(k)
3. dim(c) = 0 ∈ ℤ
4. ∀[p:ℝ^k]. uiff(in-rat-cube(k;p;c);req-vec(k;p;λj.rat2real(fst((c j)))))
5. p : ℝ^k
6. q : ℝ^k
7. req-vec(k;p;λj.rat2real(fst((c j))))
8. req-vec(k;q;λj.rat2real(fst((c j))))
⊢ p ≡ q
BY
{ (RWO "meq-rn-prod-metric" 0 THEN Auto) }

1
1. k : ℕ
2. c : ℚCube(k)
3. dim(c) = 0 ∈ ℤ
4. ∀[p:ℝ^k]. uiff(in-rat-cube(k;p;c);req-vec(k;p;λj.rat2real(fst((c j)))))
5. p : ℝ^k
6. q : ℝ^k
7. req-vec(k;p;λj.rat2real(fst((c j))))
8. req-vec(k;q;λj.rat2real(fst((c j))))
⊢ req-vec(k;p;q)

Latex:

Latex:
1. k : \mBbbN{} 2. c : \mBbbQ{}Cube(k) 3. dim(c) = 0 4. \mforall{}[p:\mBbbR{}\^{}k]. uiff(in-rat-cube(k;p;c);req-vec(k;p;\mlambda{}j.rat2real(fst((c j))))) 5. p : \mBbbR{}\^{}k 6. q : \mBbbR{}\^{}k 7. req-vec(k;p;\mlambda{}j.rat2real(fst((c j)))) 8. req-vec(k;q;\mlambda{}j.rat2real(fst((c j)))) \mvdash{} p \mequiv{} q By Latex: (RWO "meq-rn-prod-metric" 0 THEN Auto) Home Index