Proof of Nuprl Lemma : eu-add-length-assoc

Step * 1 1 of Lemma eu-add-length-assoc

1. e : EuclideanPlane
2. x : Point
3. O_X_x
4. y : Point
5. O_X_y
6. z : Point
7. O_X_z
8. ¬(O = X ∈ Point)
9. ¬(O = x ∈ Point)
10. ¬(O = y ∈ Point)
11. a : Point@i
12. O_y_a ∧ ya=Xz@i
13. b : Point@i
14. O_x_b ∧ xb=Xa@i
15. c : Point@i
16. O_x_c ∧ xc=Xy@i
17. ¬(O = c ∈ Point)
18. d : Point@i
19. O_c_d ∧ cd=Xz@i
⊢ b = d ∈ Point
BY
{ Assert ⌜xd=Xa⌝⋅ }

1
.....assertion.....
1. e : EuclideanPlane
2. x : Point
3. O_X_x
4. y : Point
5. O_X_y
6. z : Point
7. O_X_z
8. ¬(O = X ∈ Point)
9. ¬(O = x ∈ Point)
10. ¬(O = y ∈ Point)
11. a : Point@i
12. O_y_a ∧ ya=Xz@i
13. b : Point@i
14. O_x_b ∧ xb=Xa@i
15. c : Point@i
16. O_x_c ∧ xc=Xy@i
17. ¬(O = c ∈ Point)
18. d : Point@i
19. O_c_d ∧ cd=Xz@i
⊢ xd=Xa

2
1. e : EuclideanPlane
2. x : Point
3. O_X_x
4. y : Point
5. O_X_y
6. z : Point
7. O_X_z
8. ¬(O = X ∈ Point)
9. ¬(O = x ∈ Point)
10. ¬(O = y ∈ Point)
11. a : Point@i
12. O_y_a ∧ ya=Xz@i
13. b : Point@i
14. O_x_b ∧ xb=Xa@i
15. c : Point@i
16. O_x_c ∧ xc=Xy@i
17. ¬(O = c ∈ Point)
18. d : Point@i
19. O_c_d ∧ cd=Xz@i
20. xd=Xa
⊢ b = d ∈ Point

Latex:

Latex:
1. e : EuclideanPlane 2. x : Point 3. O\_X\_x 4. y : Point 5. O\_X\_y 6. z : Point 7. O\_X\_z 8. \mneg{}(O = X) 9. \mneg{}(O = x) 10. \mneg{}(O = y) 11. a : Point@i 12. O\_y\_a \mwedge{} ya=Xz@i 13. b : Point@i 14. O\_x\_b \mwedge{} xb=Xa@i 15. c : Point@i 16. O\_x\_c \mwedge{} xc=Xy@i 17. \mneg{}(O = c) 18. d : Point@i 19. O\_c\_d \mwedge{} cd=Xz@i \mvdash{} b = d By Latex: Assert \mkleeneopen{}xd=Xa\mkleeneclose{}\mcdot{} Home Index