Proof of Nuprl Lemma : real-unit-ball-totally-bounded1

Step * 2 1 1 1 2 1 1 of Lemma real-unit-ball-totally-bounded1

1. n : ℕ⁺
2. k : ℕ⁺
3. p : ℝ^n
4. ||p|| ≤ r1

5. ∀i:ℕn. ∃z:ℤ. ((|(r(z)/r(k * 8 * n))| ≤ |p i|) ∧ (|(p i) - (r(z)/r(k * 8 * n))| ≤ (r(2)/r(k * 2 * n))))

6. f : i:ℕn ⟶ ℤ

7. ∀i:ℕn. ((|(r(f i)/r(k * 8 * n))| ≤ |p i|) ∧ (|(p i) - (r(f i)/r(k * 8 * n))| ≤ (r(2)/r(k * 2 * n))))

8. x : ℕn
9. |(r(f x)/r(k * 8 * n))| ≤ |p x|
10. ∀a:ℝ. ((a * a) = |a|^2)
11. ∀i:ℕ(n - 1) + 1. (|p i|^2 ≤ Σ{|p i|^2 | 0≤i≤n - 1})
⊢ |p x|^2 ≤ Σ{|p i|^2 | 0≤i≤n - 1}
BY
{ (BHyp -1 THEN Auto) }

Latex:

Latex:
1. n : \mBbbN{}\msupplus{} 2. k : \mBbbN{}\msupplus{} 3. p : \mBbbR{}\^{}n 4. ||p|| \mleq{} r1 5. \mforall{}i:\mBbbN{}n \mexists{}z:\mBbbZ{}. ((|(r(z)/r(k * 8 * n))| \mleq{} |p i|) \mwedge{} (|(p i) - (r(z)/r(k * 8 * n))| \mleq{} (r(2)/r(k * 2 * n)))) 6. f : i:\mBbbN{}n {}\mrightarrow{} \mBbbZ{} 7. \mforall{}i:\mBbbN{}n ((|(r(f i)/r(k * 8 * n))| \mleq{} |p i|) \mwedge{} (|(p i) - (r(f i)/r(k * 8 * n))| \mleq{} (r(2)/r(k * 2 * n)))) 8. x : \mBbbN{}n 9. |(r(f x)/r(k * 8 * n))| \mleq{} |p x| 10. \mforall{}a:\mBbbR{}. ((a * a) = |a|\^{}2) 11. \mforall{}i:\mBbbN{}(n - 1) + 1. (|p i|\^{}2 \mleq{} \mSigma{}\{|p i|\^{}2 | 0\mleq{}i\mleq{}n - 1\}) \mvdash{} |p x|\^{}2 \mleq{} \mSigma{}\{|p i|\^{}2 | 0\mleq{}i\mleq{}n - 1\} By Latex: (BHyp -1 THEN Auto) Home Index