Proof of Nuprl Lemma : K-forces-monotone

Step * 1 2 3 1 of Lemma K-forces-monotone

1. K : mKripkeStruct
2. fmla : mFOL()
3. knd : Atom
4. left : mFOL()
5. right : mFOL()
6. ∀i,j:World.
     (i ≤ j ⇒ (∀a:FOAssignment(mFOL-freevars(left),Dom(i)). ((K-forces(K;left) i a) ⊆r (K-forces(K;left) j a))))
7. ∀i,j:World.
     (i ≤ j ⇒ (∀a:FOAssignment(mFOL-freevars(right),Dom(i)). ((K-forces(K;right) i a) ⊆r (K-forces(K;right) j a))))
8. i : World
9. j : World
10. i ≤ j
11. a : FOAssignment(mFOL-freevars(mFOconnect(knd;left;right)),Dom(i))
12. (K-forces(K;left) i a) ⊆r (K-forces(K;left) j a)
13. (K-forces(K;right) i a) ⊆r (K-forces(K;right) j a)
14. ¬(knd = "and" ∈ Atom)
15. ¬(knd = "or" ∈ Atom)
⊢ {j@0:World| j ≤ j@0}  ⊆r {j:World| i ≤ j}
BY

{ ((D 0 THENA Auto) THEN D -1 THEN InstLemma `K-le_transitivity` [⌜K⌝;⌜i⌝;⌜j⌝;⌜x⌝]⋅ THEN Auto) }

Latex:

Latex:
1. K : mKripkeStruct 2. fmla : mFOL() 3. knd : Atom 4. left : mFOL() 5. right : mFOL() 6. \mforall{}i,j:World. (i \mleq{} j {}\mRightarrow{} (\mforall{}a:FOAssignment(mFOL-freevars(left),Dom(i)) ((K-forces(K;left) i a) \msubseteq{}r (K-forces(K;left) j a)))) 7. \mforall{}i,j:World. (i \mleq{} j {}\mRightarrow{} (\mforall{}a:FOAssignment(mFOL-freevars(right),Dom(i)) ((K-forces(K;right) i a) \msubseteq{}r (K-forces(K;right) j a)))) 8. i : World 9. j : World 10. i \mleq{} j 11. a : FOAssignment(mFOL-freevars(mFOconnect(knd;left;right)),Dom(i)) 12. (K-forces(K;left) i a) \msubseteq{}r (K-forces(K;left) j a) 13. (K-forces(K;right) i a) \msubseteq{}r (K-forces(K;right) j a) 14. \mneg{}(knd = "and") 15. \mneg{}(knd = "or") \mvdash{} \{j@0:World| j \mleq{} j@0\} \msubseteq{}r \{j:World| i \mleq{} j\} By Latex: ((D 0 THENA Auto) THEN D -1 THEN InstLemma `K-le\_transitivity` [\mkleeneopen{}K\mkleeneclose{};\mkleeneopen{}i\mkleeneclose{};\mkleeneopen{}j\mkleeneclose{};\mkleeneopen{}x\mkleeneclose{}]\mcdot{} THEN Auto) Home Index