Proof of Nuprl Lemma : fps-exp-add

Step * 2 of Lemma fps-exp-add

1. X : Type
2. valueall-type(X)
3. eq : EqDecider(X)
4. r : CRng
5. n : ℤ
6. 0 < n
7. ∀[m:ℕ]. ∀[f:PowerSeries(X;r)].  ((f)^((n - 1) + m) = ((f)^(n - 1)*(f)^(m)) ∈ PowerSeries(X;r))
8. m : ℕ
9. f : PowerSeries(X;r)
⊢ (f)^(n + m) = ((f)^(n)*(f)^(m)) ∈ PowerSeries(X;r)
BY
{ ((RW (AddrC [2] (LemmaC `fps-exp-unroll`)) 0 THEN Auto')
   THEN RW (AddrC [3;3] (LemmaC `fps-exp-unroll`)) 0
   THEN Auto') }

1
1. X : Type
2. valueall-type(X)
3. eq : EqDecider(X)
4. r : CRng
5. n : ℤ
6. 0 < n
7. ∀[m:ℕ]. ∀[f:PowerSeries(X;r)].  ((f)^((n - 1) + m) = ((f)^(n - 1)*(f)^(m)) ∈ PowerSeries(X;r))
8. m : ℕ
9. f : PowerSeries(X;r)
⊢ ((f)^((n + m) - 1)*f) = (((f)^(n - 1)*f)*(f)^(m)) ∈ PowerSeries(X;r)

Latex:

Latex:
1. X : Type 2. valueall-type(X) 3. eq : EqDecider(X) 4. r : CRng 5. n : \mBbbZ{} 6. 0 < n 7. \mforall{}[m:\mBbbN{}]. \mforall{}[f:PowerSeries(X;r)]. ((f)\^{}((n - 1) + m) = ((f)\^{}(n - 1)*(f)\^{}(m))) 8. m : \mBbbN{} 9. f : PowerSeries(X;r) \mvdash{} (f)\^{}(n + m) = ((f)\^{}(n)*(f)\^{}(m)) By Latex: ((RW (AddrC [2] (LemmaC `fps-exp-unroll`)) 0 THEN Auto') THEN RW (AddrC [3;3] (LemmaC `fps-exp-unroll`)) 0 THEN Auto') Home Index