Proof of Nuprl Lemma : bpa-norm-equiv

Step * 1 of Lemma bpa-norm-equiv

1. p : {2...}
2. x1 : ℕ
3. x2 : p-adics(p)
⊢ let m,b = if (x1 =_z 0) then <0, x2>
  if (x2 x1 =_z 0) then <0, p-shift(p;x2;x1)>
  else let k,b = p-unitize(p;x2;x1)
       in <x1 - k, b>
  fi
  in p^m(p) * x2 = p^x1(p) * b ∈ p-adics(p)
BY
{ AutoSplit }

1
1. p : {2...}
2. x1 : ℕ
3. x2 : p-adics(p)
4. x1 = 0 ∈ ℤ
⊢ 1(p) * x2 = p^x1(p) * x2 ∈ p-adics(p)

2
1. p : {2...}
2. x1 : {1...}
3. x2 : p-adics(p)

⊢ let m,b = if (x2 x1 =_z 0) then <0, p-shift(p;x2;x1)> else let k,b = p-unitize(p;x2;x1) in <x1 - k, b> fi

in p^m(p) * x2 = p^x1(p) * b ∈ p-adics(p)

Latex:

Latex:
1. p : \{2...\} 2. x1 : \mBbbN{} 3. x2 : p-adics(p) \mvdash{} let m,b = if (x1 =\msubz{} 0) then ɘ, x2> if (x2 x1 =\msubz{} 0) then ɘ, p-shift(p;x2;x1)> else let k,b = p-unitize(p;x2;x1) in <x1 - k, b> fi in p\^{}m(p) * x2 = p\^{}x1(p) * b By Latex: AutoSplit Home Index