Proof of Nuprl Lemma : lt-angle-not-cong

Step * 1 2 1 of Lemma lt-angle-not-cong

.....assertion.....
1. e : EuclideanPlane
2. x : Point
3. y : Point
4. z : Point
5. x # yz
6. ¬out(y xz)
7. p : Point
8. p' : Point
9. x' : Point
10. z' : Point
11. xyz ≅_a xyp
12. y_x'_p
13. out(y xx')
14. out(y zz')
15. ¬x_y_p
16. x'_x'_z'
17. x' ≠ z'
18. p' ≡ x'
19. y ≠ p'
⊢ x'yz' ≅_a x'yx'
BY
{ ((FLemma `geo-between-out` [-8] THEN Auto)

   THEN InstLemma `out-preserves-angle-cong_1` [⌜e⌝;⌜x⌝;⌜y⌝;⌜z⌝;⌜x⌝;⌜y⌝;⌜p⌝;⌜x'⌝;⌜z'⌝;⌜x'⌝;⌜x'⌝]⋅

THEN EAuto 1) }

Latex:

Latex:
.....assertion..... 1. e : EuclideanPlane 2. x : Point 3. y : Point 4. z : Point 5. x \# yz 6. \mneg{}out(y xz) 7. p : Point 8. p' : Point 9. x' : Point 10. z' : Point 11. xyz \mcong{}\msuba{} xyp 12. y\_x'\_p 13. out(y xx') 14. out(y zz') 15. \mneg{}x\_y\_p 16. x'\_x'\_z' 17. x' \mneq{} z' 18. p' \mequiv{} x' 19. y \mneq{} p' \mvdash{} x'yz' \mcong{}\msuba{} x'yx' By Latex: ((FLemma `geo-between-out` [-8] THEN Auto) THEN InstLemma `out-preserves-angle-cong\_1` [\mkleeneopen{}e\mkleeneclose{};\mkleeneopen{}x\mkleeneclose{};\mkleeneopen{}y\mkleeneclose{};\mkleeneopen{}z\mkleeneclose{};\mkleeneopen{}x\mkleeneclose{};\mkleeneopen{}y\mkleeneclose{};\mkleeneopen{}p\mkleeneclose{};\mkleeneopen{}x'\mkleeneclose{};\mkleeneopen{}z'\mkleeneclose{};\mkleeneopen{}x'\mkleeneclose{};\mkleeneopen{}x'\mkleeneclose{}]\mcdot{} THEN EAuto 1) Home Index