Proof of Nuprl Lemma : Euclid-Prop22

Step * 1 1 1 of Lemma Euclid-Prop22

.....assertion.....
1. e : EuclideanPlane
2. a1 : Point
3. a2 : Point
4. b1 : Point
5. b2 : Point
6. c1 : Point
7. c2 : Point
8. |a1a2| < |b1b2| + |c1c2|
9. |b1b2| < |a1a2| + |c1c2|
10. |c1c2| < |a1a2| + |b1b2|
11. a1 # a2
12. b1 # b2
13. c1 # c2
14. f : Point
15. O-X-f
16. Xf ≅ a1a2
17. g : Point
18. X-f-g
19. fg ≅ b1b2
20. h : Point
21. f-g-h
22. gh ≅ c1c2
⊢ ∃x':Point. (X-f-x' ∧ Xf ≅ fx')
BY
{ (gProperProlong ⌜X⌝⌜f⌝`x\''⌜X⌝⌜f⌝⋅ THEN Auto) }

Latex:

Latex:
.....assertion..... 1. e : EuclideanPlane 2. a1 : Point 3. a2 : Point 4. b1 : Point 5. b2 : Point 6. c1 : Point 7. c2 : Point 8. |a1a2| < |b1b2| + |c1c2| 9. |b1b2| < |a1a2| + |c1c2| 10. |c1c2| < |a1a2| + |b1b2| 11. a1 \# a2 12. b1 \# b2 13. c1 \# c2 14. f : Point 15. O-X-f 16. Xf \mcong{} a1a2 17. g : Point 18. X-f-g 19. fg \mcong{} b1b2 20. h : Point 21. f-g-h 22. gh \mcong{} c1c2 \mvdash{} \mexists{}x':Point. (X-f-x' \mwedge{} Xf \mcong{} fx') By Latex: (gProperProlong \mkleeneopen{}X\mkleeneclose{}\mkleeneopen{}f\mkleeneclose{}`x\mbackslash{}''\mkleeneopen{}X\mkleeneclose{}\mkleeneopen{}f\mkleeneclose{}\mcdot{} THEN Auto) Home Index