Proof of Nuprl Lemma : full-Pasch-lemma

Step * 1 1 3 1 of Lemma full-Pasch-lemma

1. e : EuclideanPlane
2. a : Point
3. x : Point
4. y : Point
5. d : Point
6. p : Point
7. d leftof xa
8. x-p-a
9. d leftof py
10. a leftof xy
11. y leftof ax
12. b : Point
13. Colinear(a;x;b)
14. B(ybd)
15. a leftof py
16. b # y
17. b # yp
⊢ ∃p':Point. ((x-p'-y ∨ a-p'-y) ∧ Colinear(d;p;p'))
BY
{ (Assert b leftof py BY
(InstLemma `left-convex` [⌜e⌝;⌜p⌝;⌜y⌝;⌜d⌝;⌜b⌝]⋅ THEN Auto)) }

1
1. e : EuclideanPlane
2. a : Point
3. x : Point
4. y : Point
5. d : Point
6. p : Point
7. d leftof xa
8. x-p-a
9. d leftof py
10. a leftof xy
11. y leftof ax
12. b : Point
13. Colinear(a;x;b)
14. B(ybd)
15. a leftof py
16. b # y
17. b # yp
18. b leftof py
⊢ ∃p':Point. ((x-p'-y ∨ a-p'-y) ∧ Colinear(d;p;p'))

Latex:

Latex:
1. e : EuclideanPlane 2. a : Point 3. x : Point 4. y : Point 5. d : Point 6. p : Point 7. d leftof xa 8. x-p-a 9. d leftof py 10. a leftof xy 11. y leftof ax 12. b : Point 13. Colinear(a;x;b) 14. B(ybd) 15. a leftof py 16. b \# y 17. b \# yp \mvdash{} \mexists{}p':Point. ((x-p'-y \mvee{} a-p'-y) \mwedge{} Colinear(d;p;p')) By Latex: (Assert b leftof py BY (InstLemma `left-convex` [\mkleeneopen{}e\mkleeneclose{};\mkleeneopen{}p\mkleeneclose{};\mkleeneopen{}y\mkleeneclose{};\mkleeneopen{}d\mkleeneclose{};\mkleeneopen{}b\mkleeneclose{}]\mcdot{} THEN Auto)) Home Index