Proof of Nuprl Lemma : FOL-proveable-evidence

Step * 1 8 1 1 of Lemma FOL-proveable-evidence

1. hyps : mFOL() List
2. concl : mFOL()
3. hypnum : ℕ
4. hypnum < ||hyps||
5. ↑mFOconnect?(hyps[hypnum])
6. mFOconnect-knd(hyps[hypnum]) = "and" ∈ Atom
7. FOL-sequent-evidence{i:l}(<[mFOconnect-left(hyps[hypnum]); [mFOconnect-right(hyps[hypnum]) / hyps]], concl>)
8. hyps[hypnum] = mFOconnect-left(hyps[hypnum]) ∧ mFOconnect-right(hyps[hypnum]) ∈ mFOL()
9. mFOL-freevars(mFOconnect-left(hyps[hypnum])) ⊆ mFOL-freevars(hyps[hypnum])
10. [Dom] : Type
11. [S] : FOStruct+{i:l}(Dom)

12. a : FOAssignment(mFOL-sequent-freevars(<[mFOconnect-right(hyps[hypnum]) / hyps], mFOconnect-left(hyps[hypnum])>),Dom\000C)

13. Dom,S,a +|= FOL-abstract(hyps[hypnum])
⊢ Dom,S,a +|= FOL-abstract(mFOconnect-left(hyps[hypnum]))
BY
{ (StrongHypSubst 8 (-1) THENA Auto) }

1
1. hyps : mFOL() List
2. concl : mFOL()
3. hypnum : ℕ
4. hypnum < ||hyps||
5. ↑mFOconnect?(hyps[hypnum])
6. mFOconnect-knd(hyps[hypnum]) = "and" ∈ Atom
7. FOL-sequent-evidence{i:l}(<[mFOconnect-left(hyps[hypnum]); [mFOconnect-right(hyps[hypnum]) / hyps]], concl>)
8. hyps[hypnum] = mFOconnect-left(hyps[hypnum]) ∧ mFOconnect-right(hyps[hypnum]) ∈ mFOL()
9. mFOL-freevars(mFOconnect-left(hyps[hypnum])) ⊆ mFOL-freevars(hyps[hypnum])
10. Dom : Type
11. S : FOStruct+{i:l}(Dom)

12. a : FOAssignment(mFOL-sequent-freevars(<[mFOconnect-right(hyps[hypnum]) / hyps], mFOconnect-left(hyps[hypnum])>),Dom\000C)

13. Dom,S,a +|= FOL-abstract(hyps[hypnum])
14. z : mFOL()
15. z = mFOconnect-left(hyps[hypnum]) ∧ mFOconnect-right(hyps[hypnum]) ∈ mFOL()

16. a = a ∈ FOAssignment(mFOL-sequent-freevars(<[mFOconnect-right(hyps[hypnum]) / hyps], mFOconnect-left(hyps[hypnum])>)\000C,Dom)

⊢ mFOL-freevars(z) ⊆ mFOL-sequent-freevars(<[mFOconnect-right(hyps[hypnum]) / hyps], mFOconnect-left(hyps[hypnum])>)

2
1. hyps : mFOL() List
2. concl : mFOL()
3. hypnum : ℕ
4. hypnum < ||hyps||
5. ↑mFOconnect?(hyps[hypnum])
6. mFOconnect-knd(hyps[hypnum]) = "and" ∈ Atom
7. FOL-sequent-evidence{i:l}(<[mFOconnect-left(hyps[hypnum]); [mFOconnect-right(hyps[hypnum]) / hyps]], concl>)
8. hyps[hypnum] = mFOconnect-left(hyps[hypnum]) ∧ mFOconnect-right(hyps[hypnum]) ∈ mFOL()
9. mFOL-freevars(mFOconnect-left(hyps[hypnum])) ⊆ mFOL-freevars(hyps[hypnum])
10. [Dom] : Type
11. [S] : FOStruct+{i:l}(Dom)

12. a : FOAssignment(mFOL-sequent-freevars(<[mFOconnect-right(hyps[hypnum]) / hyps], mFOconnect-left(hyps[hypnum])>),Dom\000C)

13. Dom,S,a +|= FOL-abstract(mFOconnect-left(hyps[hypnum]) ∧ mFOconnect-right(hyps[hypnum]))
⊢ Dom,S,a +|= FOL-abstract(mFOconnect-left(hyps[hypnum]))

Latex:

Latex:
1. hyps : mFOL() List 2. concl : mFOL() 3. hypnum : \mBbbN{} 4. hypnum < ||hyps|| 5. \muparrow{}mFOconnect?(hyps[hypnum]) 6. mFOconnect-knd(hyps[hypnum]) = "and" 7. FOL-sequent-evidence\{i:l\}(<[mFOconnect-left(hyps[hypnum]); [mFOconnect-right(hyps[hypnum]) / hyps]] , concl >) 8. hyps[hypnum] = mFOconnect-left(hyps[hypnum]) \mwedge{} mFOconnect-right(hyps[hypnum]) 9. mFOL-freevars(mFOconnect-left(hyps[hypnum])) \msubseteq{} mFOL-freevars(hyps[hypnum]) 10. [Dom] : Type 11. [S] : FOStruct+\{i:l\}(Dom) 12. a : FOAssignment(mFOL-sequent-freevars(<[mFOconnect-right(hyps[hypnum]) / hyps] , mFOconnect-left(hyps[hypnum]) >),Dom) 13. Dom,S,a +|= FOL-abstract(hyps[hypnum]) \mvdash{} Dom,S,a +|= FOL-abstract(mFOconnect-left(hyps[hypnum])) By Latex: (StrongHypSubst 8 (-1) THENA Auto) Home Index