Proof of Nuprl Lemma : remove-singularity-max-seq-mcauchy

Step * 1 1 of Lemma remove-singularity-max-seq-mcauchy

.....assertion.....
1. [X] : Type
2. [d] : metric(X)
3. [k] : ℕ
4. λi.r0 ∈ ℝ^k
5. [f] : {p:ℝ^k| r0 < mdist(max-metric(k);p;λi.r0)}  ⟶ X
6. [z] : X
7. c : {c:ℝ| r0 ≤ c}
8. ∀m:ℕ⁺. ∀p:{p:ℝ^k| r0 < mdist(max-metric(k);p;λi.r0)} .
     ((mdist(max-metric(k);p;λi.r0) ≤ (r(4)/r(m))) ⇒ (mdist(d;f p;z) ≤ (c/r(m))))
9. [p] : ℝ^k
10. b : ℕ⁺
⊢ ∃N:ℕ⁺. ((c/r(N)) ≤ (r1/r(b)))
BY
{ ((InstLemma `r-archimedean` [⌜c⌝]⋅ THENA Auto) THEN D -1) }

1
1. [X] : Type
2. [d] : metric(X)
3. [k] : ℕ
4. λi.r0 ∈ ℝ^k
5. [f] : {p:ℝ^k| r0 < mdist(max-metric(k);p;λi.r0)}  ⟶ X
6. [z] : X
7. c : {c:ℝ| r0 ≤ c}
8. ∀m:ℕ⁺. ∀p:{p:ℝ^k| r0 < mdist(max-metric(k);p;λi.r0)} .
     ((mdist(max-metric(k);p;λi.r0) ≤ (r(4)/r(m))) ⇒ (mdist(d;f p;z) ≤ (c/r(m))))
9. [p] : ℝ^k
10. b : ℕ⁺
11. n : ℕ
12. (r(-n) ≤ c) ∧ (c ≤ r(n))
⊢ ∃N:ℕ⁺. ((c/r(N)) ≤ (r1/r(b)))

Latex:

Latex:
.....assertion..... 1. [X] : Type 2. [d] : metric(X) 3. [k] : \mBbbN{} 4. \mlambda{}i.r0 \mmember{} \mBbbR{}\^{}k 5. [f] : \{p:\mBbbR{}\^{}k| r0 < mdist(max-metric(k);p;\mlambda{}i.r0)\} {}\mrightarrow{} X 6. [z] : X 7. c : \{c:\mBbbR{}| r0 \mleq{} c\} 8. \mforall{}m:\mBbbN{}\msupplus{}. \mforall{}p:\{p:\mBbbR{}\^{}k| r0 < mdist(max-metric(k);p;\mlambda{}i.r0)\} . ((mdist(max-metric(k);p;\mlambda{}i.r0) \mleq{} (r(4)/r(m))) {}\mRightarrow{} (mdist(d;f p;z) \mleq{} (c/r(m)))) 9. [p] : \mBbbR{}\^{}k 10. b : \mBbbN{}\msupplus{} \mvdash{} \mexists{}N:\mBbbN{}\msupplus{}. ((c/r(N)) \mleq{} (r1/r(b))) By Latex: ((InstLemma `r-archimedean` [\mkleeneopen{}c\mkleeneclose{}]\mcdot{} THENA Auto) THEN D -1) Home Index