Proof of Nuprl Lemma : implies-member-rat-cube-faces

Step * 1 2 of Lemma implies-member-rat-cube-faces

1. k : ℕ
2. c : ℚCube(k)
3. ↑Inhabited(c)
4. f : ℚCube(k)
5. f ≤ c
6. dim(f) = (dim(c) - 1) ∈ ℤ
7. ∃y:ℕk. ((↑(dim(c y) =_z 1)) ∧ (f ∈ [lower-rc-face(c;y); upper-rc-face(c;y)]))
⊢ ∃l:ℚCube(k) List

   ((∃y:ℕk. ((y ∈ upto(k)) ∧ ((↑(dim(c y) =_z 1)) c∧ (l = [lower-rc-face(c;y); upper-rc-face(c;y)] ∈ (ℚCube(k) List)))))

   ∧ (f ∈ l))
BY
{ (D -1
   THEN D 0 With ⌜[lower-rc-face(c;y); upper-rc-face(c;y)]⌝
   THEN Auto
   THEN D 0 With ⌜y⌝
   THEN Auto
   THEN BLemma `member_upto2`
   THEN Auto) }

Latex:

Latex:
1. k : \mBbbN{} 2. c : \mBbbQ{}Cube(k) 3. \muparrow{}Inhabited(c) 4. f : \mBbbQ{}Cube(k) 5. f \mleq{} c 6. dim(f) = (dim(c) - 1) 7. \mexists{}y:\mBbbN{}k. ((\muparrow{}(dim(c y) =\msubz{} 1)) \mwedge{} (f \mmember{} [lower-rc-face(c;y); upper-rc-face(c;y)])) \mvdash{} \mexists{}l:\mBbbQ{}Cube(k) List ((\mexists{}y:\mBbbN{}k ((y \mmember{} upto(k)) \mwedge{} ((\muparrow{}(dim(c y) =\msubz{} 1)) c\mwedge{} (l = [lower-rc-face(c;y); upper-rc-face(c;y)])))) \mwedge{} (f \mmember{} l)) By Latex: (D -1 THEN D 0 With \mkleeneopen{}[lower-rc-face(c;y); upper-rc-face(c;y)]\mkleeneclose{} THEN Auto THEN D 0 With \mkleeneopen{}y\mkleeneclose{} THEN Auto THEN BLemma `member\_upto2` THEN Auto) Home Index