Proof of Nuprl Lemma : fps-linear-ucont-equal

Step * 1 1 1 1 1 2 1 of Lemma fps-linear-ucont-equal

1. X : Type
2. valueall-type(X)
3. eq : EqDecider(X)
4. r : CRng
5. Comm(PowerSeries(X;r);λf,g. (f+g))
6. Assoc(PowerSeries(X;r);λf,g. (f+g))
7. F : PowerSeries(X;r) ⟶ PowerSeries(X;r)
8. G : PowerSeries(X;r) ⟶ PowerSeries(X;r)
9. ∀f,g:PowerSeries(X;r).  (F[(f+g)] = (F[f]+F[g]) ∈ PowerSeries(X;r))
10. ∀f,g:PowerSeries(X;r).  (G[(f+g)] = (G[f]+G[g]) ∈ PowerSeries(X;r))
11. ∀c:|r|. ∀f:PowerSeries(X;r).  (F[(c)*f] = (c)*F[f] ∈ PowerSeries(X;r))
12. ∀c:|r|. ∀f:PowerSeries(X;r).  (G[(c)*f] = (c)*G[f] ∈ PowerSeries(X;r))
13. ∀b:bag(X). (F[<b>] = G[<b>] ∈ PowerSeries(X;r))
14. f : PowerSeries(X;r)
15. u : bag(X)
16. v : bag(X) List
17. F[Σ(x∈v). (f[x])*<x>] = G[Σ(x∈v). (f[x])*<x>] ∈ PowerSeries(X;r)
⊢ IsMonoid(PowerSeries(X;r);λf,g. (f+g);0)
BY
{ xxx(RepeatFor 2 ((D 0 THEN Auto)) THEN Reduce 0 THEN FpsNorm 0 THEN Auto)xxx }

Latex:

Latex:
1. X : Type 2. valueall-type(X) 3. eq : EqDecider(X) 4. r : CRng 5. Comm(PowerSeries(X;r);\mlambda{}f,g. (f+g)) 6. Assoc(PowerSeries(X;r);\mlambda{}f,g. (f+g)) 7. F : PowerSeries(X;r) {}\mrightarrow{} PowerSeries(X;r) 8. G : PowerSeries(X;r) {}\mrightarrow{} PowerSeries(X;r) 9. \mforall{}f,g:PowerSeries(X;r). (F[(f+g)] = (F[f]+F[g])) 10. \mforall{}f,g:PowerSeries(X;r). (G[(f+g)] = (G[f]+G[g])) 11. \mforall{}c:|r|. \mforall{}f:PowerSeries(X;r). (F[(c)*f] = (c)*F[f]) 12. \mforall{}c:|r|. \mforall{}f:PowerSeries(X;r). (G[(c)*f] = (c)*G[f]) 13. \mforall{}b:bag(X). (F[<b>] = G[<b>]) 14. f : PowerSeries(X;r) 15. u : bag(X) 16. v : bag(X) List 17. F[\mSigma{}(x\mmember{}v). (f[x])*<x>] = G[\mSigma{}(x\mmember{}v). (f[x])*<x>] \mvdash{} IsMonoid(PowerSeries(X;r);\mlambda{}f,g. (f+g);0) By Latex: xxx(RepeatFor 2 ((D 0 THEN Auto)) THEN Reduce 0 THEN FpsNorm 0 THEN Auto)xxx Home Index