Proof of Nuprl Lemma : geo-congruent-iff-length

Step * 2 1 1 of Lemma geo-congruent-iff-length

1. e : BasicGeometry
2. ∀[s,t:geo-segment(e)]. uiff(geo-seg1(s)geo-seg2(s) ≅ geo-seg1(t)geo-seg2(t);|s| ≡ |t|)
3. a : Point
4. b : Point
5. c : Point
6. d : Point

7. |ab| = |cd| ∈ pertype(λx,y. ((x ∈ {p:Point| O_X_p} ) ∧ (y ∈ {p:Point| O_X_p} ) ∧ x ≡ y))

8. (|ab| ∈ {p:Point| O_X_p} ) ∧ (|cd| ∈ {p:Point| O_X_p} ) ∧ |ab| ≡ |cd|
9. uiff(ab ≅ cd;|ab| ≡ |cd|)
⊢ |ab| ≡ |cd|
BY
{ Auto }

Latex:

Latex:
1. e : BasicGeometry 2. \mforall{}[s,t:geo-segment(e)]. uiff(geo-seg1(s)geo-seg2(s) \00D0 geo-seg1(t)geo-seg2(t);|s| \mequiv{} |t|) 3. a : Point 4. b : Point 5. c : Point 6. d : Point 7. |ab| = |cd| 8. (|ab| \mmember{} \{p:Point| O\_X\_p\} ) \mwedge{} (|cd| \mmember{} \{p:Point| O\_X\_p\} ) \mwedge{} |ab| \mequiv{} |cd| 9. uiff(ab \00D0 cd;|ab| \mequiv{} |cd|) \mvdash{} |ab| \mequiv{} |cd| By Latex: Auto Home Index