Proof of Nuprl Lemma : fps-mul-slice

Step * 1 1 2 of Lemma fps-mul-slice

1. X : Type
2. valueall-type(X)
3. eq : EqDecider(X)
4. r : CRng
5. n : ℕ
6. f : PowerSeries(X;r)
7. g : PowerSeries(X;r)
8. Assoc(|r|;+r)
9. Comm(|r|;+r)
10. x : bag(X)
11. upto(n + 1) ∈ bag(ℕ)
12. IsMonoid(|r|;+r;0)
13. #(x) = n ∈ ℤ

14. Σ(k∈upto(n + 1)). Σ(p∈[p∈bag-partitions(eq;x)|(#(fst(p)) =_z k) ∧_b (#(snd(p)) =_z n - k)]). (f (fst(p)))

                                                                                              (g (snd(p)))

= Σ(k∈upto(n + 1)). Σ(p∈bag-partitions(eq;x)). if (#(fst(p)) =_z k) then f (fst(p)) else 0 fi
*

                                               if (#(snd(p)) =_z n - k) then g (snd(p)) else 0 fi

∈ |r|
⊢ Σ(p∈bag-partitions(eq;x)). (f (fst(p))) * (g (snd(p)))
= Σ(k∈upto(n + 1)). Σ(p∈bag-partitions(eq;x)). if (#(fst(p)) =_z k) then f (fst(p)) else 0 fi
*

                                               if (#(snd(p)) =_z n - k) then g (snd(p)) else 0 fi

∈ |r|
BY
{ xxx(NthHypEq (-1) THEN (EqCD THEN Auto) THEN Thin (-1))xxx }

1
1. X : Type
2. valueall-type(X)
3. eq : EqDecider(X)
4. r : CRng
5. n : ℕ
6. f : PowerSeries(X;r)
7. g : PowerSeries(X;r)
8. Assoc(|r|;+r)
9. Comm(|r|;+r)
10. x : bag(X)
11. upto(n + 1) ∈ bag(ℕ)
12. IsMonoid(|r|;+r;0)
13. #(x) = n ∈ ℤ
⊢ Σ(p∈bag-partitions(eq;x)). (f (fst(p))) * (g (snd(p)))

= Σ(k∈upto(n + 1)). Σ(p∈[p∈bag-partitions(eq;x)|(#(fst(p)) =_z k) ∧_b (#(snd(p)) =_z n - k)]). (f (fst(p))) * (g (snd(p)))

∈ |r|

Latex:

Latex:
1. X : Type 2. valueall-type(X) 3. eq : EqDecider(X) 4. r : CRng 5. n : \mBbbN{} 6. f : PowerSeries(X;r) 7. g : PowerSeries(X;r) 8. Assoc(|r|;+r) 9. Comm(|r|;+r) 10. x : bag(X) 11. upto(n + 1) \mmember{} bag(\mBbbN{}) 12. IsMonoid(|r|;+r;0) 13. \#(x) = n 14. \mSigma{}(k\mmember{}upto(n + 1)). \mSigma{}(p\mmember{}[p\mmember{}bag-partitions(eq;x)|(\#(fst(p)) =\msubz{} k) \mwedge{}\msubb{} (\#(snd(p)) =\msubz{} n - k)]) (f (fst(p))) * (g (snd(p))) = \mSigma{}(k\mmember{}upto(n + 1)). \mSigma{}(p\mmember{}bag-partitions(eq;x)). if (\#(fst(p)) =\msubz{} k) then f (fst(p)) else 0 fi * if (\#(snd(p)) =\msubz{} n - k) then g (snd(p)) else 0 fi \mvdash{} \mSigma{}(p\mmember{}bag-partitions(eq;x)). (f (fst(p))) * (g (snd(p))) = \mSigma{}(k\mmember{}upto(n + 1)). \mSigma{}(p\mmember{}bag-partitions(eq;x)). if (\#(fst(p)) =\msubz{} k) then f (fst(p)) else 0 fi * if (\#(snd(p)) =\msubz{} n - k) then g (snd(p)) else 0 fi By Latex: xxx(NthHypEq (-1) THEN (EqCD THEN Auto) THEN Thin (-1))xxx Home Index