Proof of Nuprl Lemma : Euclid-Prop21

Step * 1 1 1 3 2 1 of Lemma Euclid-Prop21

.....aux.....
1. g : EuclideanPlane
2. a : Point
3. b : Point
4. c : Point
5. d : Point
6. a leftof bc
7. d leftof bc
8. d leftof ca
9. d leftof ab
10. a leftof bd
11. c leftof db
12. x : Point
13. a-x-c
14. B(bdx)
15. b # d
16. d # x
17. |bx| < |ba| + |ax|
18. |bx| + |xc| < |ba| + |ac|
19. |cd| < |cx| + |xd|
20. |bx| = |bd| + |dx| ∈ Length
⊢ |cd| + |db| < |cx| + |xb|
BY
{ ((Assert |xb| = |bd| + |dx| ∈ Length BY
          (Subst' |bx| = |xb| ∈ Length -1 THEN Auto))
   THEN (RWO "-1" 0 THEN Auto)
   THEN (Assert |cx| + |bd| + |dx| = |cx| + |bd| + |dx| ∈ Length BY
               Auto)
   THEN RWO "-1" 0
   THEN Auto) }

1
1. g : EuclideanPlane
2. a : Point
3. b : Point
4. c : Point
5. d : Point
6. a leftof bc
7. d leftof bc
8. d leftof ca
9. d leftof ab
10. a leftof bd
11. c leftof db
12. x : Point
13. a-x-c
14. B(bdx)
15. b # d
16. d # x
17. |bx| < |ba| + |ax|
18. |bx| + |xc| < |ba| + |ac|
19. |cd| < |cx| + |xd|
20. |bx| = |bd| + |dx| ∈ Length
21. |xb| = |bd| + |dx| ∈ Length
22. |cx| + |bd| + |dx| = |cx| + |bd| + |dx| ∈ Length
⊢ |cd| + |db| < |cx| + |bd| + |dx|

Latex:

Latex:
.....aux..... 1. g : EuclideanPlane 2. a : Point 3. b : Point 4. c : Point 5. d : Point 6. a leftof bc 7. d leftof bc 8. d leftof ca 9. d leftof ab 10. a leftof bd 11. c leftof db 12. x : Point 13. a-x-c 14. B(bdx) 15. b \# d 16. d \# x 17. |bx| < |ba| + |ax| 18. |bx| + |xc| < |ba| + |ac| 19. |cd| < |cx| + |xd| 20. |bx| = |bd| + |dx| \mvdash{} |cd| + |db| < |cx| + |xb| By Latex: ((Assert |xb| = |bd| + |dx| BY (Subst' |bx| = |xb| -1 THEN Auto)) THEN (RWO "-1" 0 THEN Auto) THEN (Assert |cx| + |bd| + |dx| = |cx| + |bd| + |dx| BY Auto) THEN RWO "-1" 0 THEN Auto) Home Index