Proof of Nuprl Lemma : vs-lift

Step * 1 1 1 of Lemma vs-lift_wf-relative

1. S : Type
2. T : Type
3. strong-subtype(T;S)
4. K : CRng
5. vs : VectorSpace(K)
6. f : S ⟶ Point(vs)
7. ∀t:T. (↓(f t) = 0 ∈ Point(vs))
8. λx.vs-lift(vs;f;x) ∈ free-vs(K;S) ⟶ vs
9. vs-subspace(K;free-vs(K;S);f.fs-in-subtype(K;S;T;f))
10. a : Base
11. a ∈ basic-formal-sum(K;S)
12. fs-in-subtype(K;S;T;a)
⊢ ((λx.vs-lift(vs;f;x)) a) = 0 ∈ Point(vs)
BY
{ ((FLemma `fs-in-subtype-basic` [-1] THENA Auto) THEN SqExRepD THEN RWO "-1" 0 THEN Auto) }

1
1. S : Type
2. T : Type
3. strong-subtype(T;S)
4. K : CRng
5. vs : VectorSpace(K)
6. f : S ⟶ Point(vs)
7. ∀t:T. (↓(f t) = 0 ∈ Point(vs))
8. λx.vs-lift(vs;f;x) ∈ free-vs(K;S) ⟶ vs
9. vs-subspace(K;free-vs(K;S);f.fs-in-subtype(K;S;T;f))
10. a : Base
11. a ∈ basic-formal-sum(K;S)
12. fs-in-subtype(K;S;T;a)
13. b : basic-formal-sum(K;T)
14. a = b ∈ formal-sum(K;S)
⊢ ((λx.vs-lift(vs;f;x)) b) = 0 ∈ Point(vs)

Latex:

Latex:
1. S : Type 2. T : Type 3. strong-subtype(T;S) 4. K : CRng 5. vs : VectorSpace(K) 6. f : S {}\mrightarrow{} Point(vs) 7. \mforall{}t:T. (\mdownarrow{}(f t) = 0) 8. \mlambda{}x.vs-lift(vs;f;x) \mmember{} free-vs(K;S) {}\mrightarrow{} vs 9. vs-subspace(K;free-vs(K;S);f.fs-in-subtype(K;S;T;f)) 10. a : Base 11. a \mmember{} basic-formal-sum(K;S) 12. fs-in-subtype(K;S;T;a) \mvdash{} ((\mlambda{}x.vs-lift(vs;f;x)) a) = 0 By Latex: ((FLemma `fs-in-subtype-basic` [-1] THENA Auto) THEN SqExRepD THEN RWO "-1" 0 THEN Auto) Home Index