Proof of Nuprl Lemma : tarski-perp-exists

Step * 1 1 2 1 1 1 1 of Lemma tarski-perp-exists

1. e : HeytingGeometry
2. a : Point
3. b : Point
4. c : Point
5. a # bc
6. a ≠ b
7. y : Point
8. b-a-y
9. ay ≅ ac
10. q : Point
11. c-y-q
12. yq ≅ ay
13. p : Point
14. y=p=c
15. Rapy
16. z : Point
17. a-y-z
18. yz ≅ yp
19. b-a-z
20. z # cq
⊢ ∃x:Point. (Colinear(a;b;x) ∧ ab ⊥ cx)
BY
{ (Assert ∃q':Point. q=z=q' BY
(InstLemma `symmetric-point-construction` [⌜e⌝;⌜z⌝;⌜q⌝]⋅ THEN Auto)) }

1
1. e : HeytingGeometry
2. a : Point
3. b : Point
4. c : Point
5. a # bc
6. a ≠ b
7. y : Point
8. b-a-y
9. ay ≅ ac
10. q : Point
11. c-y-q
12. yq ≅ ay
13. p : Point
14. y=p=c
15. Rapy
16. z : Point
17. a-y-z
18. yz ≅ yp
19. b-a-z
20. z # cq
21. ∃q':Point. q=z=q'
⊢ ∃x:Point. (Colinear(a;b;x) ∧ ab ⊥ cx)

Latex:

Latex:
1. e : HeytingGeometry 2. a : Point 3. b : Point 4. c : Point 5. a \# bc 6. a \mneq{} b 7. y : Point 8. b-a-y 9. ay \00D0 ac 10. q : Point 11. c-y-q 12. yq \00D0 ay 13. p : Point 14. y=p=c 15. Rapy 16. z : Point 17. a-y-z 18. yz \00D0 yp 19. b-a-z 20. z \# cq \mvdash{} \mexists{}x:Point. (Colinear(a;b;x) \mwedge{} ab \mbot{} cx) By Latex: (Assert \mexists{}q':Point. q=z=q' BY (InstLemma `symmetric-point-construction` [\mkleeneopen{}e\mkleeneclose{};\mkleeneopen{}z\mkleeneclose{};\mkleeneopen{}q\mkleeneclose{}]\mcdot{} THEN Auto)) Home Index