Proof of Nuprl Lemma : unit-balls-homeomorphic+

Step * 1 1 2 2 of Lemma unit-balls-homeomorphic+

1. n : ℕ⁺
2. λi.r0 ∈ ℝ^n
3. {q:ℝ^n| mdist(rn-metric(n);λi.r0;q) ≤ r1} ⊆r {p:ℝ^n| ||p|| ≤ r1}
4. {p:ℝ^n| ||p|| ≤ r1} ⊆r {q:ℝ^n| mdist(rn-metric(n);λi.r0;q) ≤ r1}
5. ∀p:ℝ^n. (r0 < ||p|| ⇐⇒ r0 < mdist(max-metric(n);λi.r0;p))
6. g : ℝ^n ⟶ ℝ^n
7. ∀p:ℝ^n. (req-vec(n;p;λi.r0) ⇒ g p ≡ λi.r0)

8. ∀p:{p:ℝ^n| r0 < mdist(max-metric(n);λi.r0;p)} . g p ≡ (λp.(||p||/mdist(max-metric(n);p;λi.r0))*p) p

9. g ∈ {p:ℝ^n| ||p|| ≤ r1} ⟶ {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}
10. g:FUN(ℝ^n;ℝ^n)
11. h : ℝ^n ⟶ ℝ^n
12. ∀p:ℝ^n. (req-vec(n;p;λi.r0) ⇒ h p ≡ λi.r0)
13. ∀p:{p:ℝ^n| r0 < ||p||} . h p ≡ (λp.(mdist(max-metric(n);λi.r0;p)/||p||)*p) p

14. h ∈ {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}  ⟶ {q:ℝ^n| mdist(rn-metric(n);λi.r0;q) ≤ r1}

15. h:FUN(ℝ^n;ℝ^n)
16. y : {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}
17. ¬(r0 < ||y||)
⊢ g (h y) ≡ y
BY
{ ((FLemma `not-rless` [-1] THENA Auto)
   THEN (Assert ||y|| = r0 BY
               (BLemma `rleq_antisymmetry` THEN Auto))
   THEN (Assert req-vec(n;y;λi.r0) BY
               EAuto 1)
   THEN (Assert h y ≡ λi.r0 BY
               (BLemma `meq-max-metric-iff-meq-rn-metric` THEN Auto))
   THEN (Assert λi.r0 ∈ {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}  BY
               ((MemTypeCD THEN Auto) THEN RWO "mdist-same" 0 THEN Auto))
   THEN (Assert h (λi.r0) ≡ λi.r0 BY
               ((BLemma `meq-max-metric-iff-meq-rn-metric` THEN Auto)
                THEN BackThruSomeHyp
                THEN D 0
                THEN Reduce 0
                THEN Auto))) }

1
1. n : ℕ⁺
2. λi.r0 ∈ ℝ^n
3. {q:ℝ^n| mdist(rn-metric(n);λi.r0;q) ≤ r1}  ⊆r {p:ℝ^n| ||p|| ≤ r1}
4. {p:ℝ^n| ||p|| ≤ r1}  ⊆r {q:ℝ^n| mdist(rn-metric(n);λi.r0;q) ≤ r1}
5. ∀p:ℝ^n. (r0 < ||p|| ⇐⇒ r0 < mdist(max-metric(n);λi.r0;p))
6. g : ℝ^n ⟶ ℝ^n
7. ∀p:ℝ^n. (req-vec(n;p;λi.r0) ⇒ g p ≡ λi.r0)

8. ∀p:{p:ℝ^n| r0 < mdist(max-metric(n);λi.r0;p)} . g p ≡ (λp.(||p||/mdist(max-metric(n);p;λi.r0))*p) p

14. h ∈ {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}  ⟶ {q:ℝ^n| mdist(rn-metric(n);λi.r0;q) ≤ r1}

15. h:FUN(ℝ^n;ℝ^n)
16. y : {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}
17. ¬(r0 < ||y||)
18. ||y|| ≤ r0
19. ||y|| = r0
20. req-vec(n;y;λi.r0)
21. h y ≡ λi.r0
22. λi.r0 ∈ {q:ℝ^n| mdist(max-metric(n);λi.r0;q) ≤ r1}
23. h (λi.r0) ≡ λi.r0
⊢ g (h y) ≡ y

Latex:

Latex:
1. n : \mBbbN{}\msupplus{} 2. \mlambda{}i.r0 \mmember{} \mBbbR{}\^{}n 3. \{q:\mBbbR{}\^{}n| mdist(rn-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} \msubseteq{}r \{p:\mBbbR{}\^{}n| ||p|| \mleq{} r1\} 4. \{p:\mBbbR{}\^{}n| ||p|| \mleq{} r1\} \msubseteq{}r \{q:\mBbbR{}\^{}n| mdist(rn-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} 5. \mforall{}p:\mBbbR{}\^{}n. (r0 < ||p|| \mLeftarrow{}{}\mRightarrow{} r0 < mdist(max-metric(n);\mlambda{}i.r0;p)) 6. g : \mBbbR{}\^{}n {}\mrightarrow{} \mBbbR{}\^{}n 7. \mforall{}p:\mBbbR{}\^{}n. (req-vec(n;p;\mlambda{}i.r0) {}\mRightarrow{} g p \mequiv{} \mlambda{}i.r0) 8. \mforall{}p:\{p:\mBbbR{}\^{}n| r0 < mdist(max-metric(n);\mlambda{}i.r0;p)\} g p \mequiv{} (\mlambda{}p.(||p||/mdist(max-metric(n);p;\mlambda{}i.r0))*p) p 9. g \mmember{} \{p:\mBbbR{}\^{}n| ||p|| \mleq{} r1\} {}\mrightarrow{} \{q:\mBbbR{}\^{}n| mdist(max-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} 10. g:FUN(\mBbbR{}\^{}n;\mBbbR{}\^{}n) 11. h : \mBbbR{}\^{}n {}\mrightarrow{} \mBbbR{}\^{}n 12. \mforall{}p:\mBbbR{}\^{}n. (req-vec(n;p;\mlambda{}i.r0) {}\mRightarrow{} h p \mequiv{} \mlambda{}i.r0) 13. \mforall{}p:\{p:\mBbbR{}\^{}n| r0 < ||p||\} . h p \mequiv{} (\mlambda{}p.(mdist(max-metric(n);\mlambda{}i.r0;p)/||p||)*p) p 14. h \mmember{} \{q:\mBbbR{}\^{}n| mdist(max-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} {}\mrightarrow{} \{q:\mBbbR{}\^{}n| mdist(rn-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} 15. h:FUN(\mBbbR{}\^{}n;\mBbbR{}\^{}n) 16. y : \{q:\mBbbR{}\^{}n| mdist(max-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} 17. \mneg{}(r0 < ||y||) \mvdash{} g (h y) \mequiv{} y By Latex: ((FLemma `not-rless` [-1] THENA Auto) THEN (Assert ||y|| = r0 BY (BLemma `rleq\_antisymmetry` THEN Auto)) THEN (Assert req-vec(n;y;\mlambda{}i.r0) BY EAuto 1) THEN (Assert h y \mequiv{} \mlambda{}i.r0 BY (BLemma `meq-max-metric-iff-meq-rn-metric` THEN Auto)) THEN (Assert \mlambda{}i.r0 \mmember{} \{q:\mBbbR{}\^{}n| mdist(max-metric(n);\mlambda{}i.r0;q) \mleq{} r1\} BY ((MemTypeCD THEN Auto) THEN RWO "mdist-same" 0 THEN Auto)) THEN (Assert h (\mlambda{}i.r0) \mequiv{} \mlambda{}i.r0 BY ((BLemma `meq-max-metric-iff-meq-rn-metric` THEN Auto) THEN BackThruSomeHyp THEN D 0 THEN Reduce 0 THEN Auto))) Home Index