Proof of Nuprl Lemma : padic-ring

Step * 3 of Lemma padic-ring_wf

1. p : {2...}
2. ℤ(p) ∈ RngSig
3. ∀[x,y,z:p-adics(p)]. (x + y + z = x + y + z ∈ p-adics(p))
4. ∀[x:p-adics(p)]. ((x + 0(p) = x ∈ p-adics(p)) ∧ (0(p) + x = x ∈ p-adics(p)))
5. ∀[x:p-adics(p)]. ((x + -(x) = 0(p) ∈ p-adics(p)) ∧ (-(x) + x = 0(p) ∈ p-adics(p)))
6. ∀[x,y,z:p-adics(p)]. (x * y * z = x * y * z ∈ p-adics(p))
7. ∀[x:p-adics(p)]. ((x * 1(p) = x ∈ p-adics(p)) ∧ (1(p) * x = x ∈ p-adics(p)))

8. ∀[a,x,y:p-adics(p)].  ((a * x + y = a * x + a * y ∈ p-adics(p)) ∧ (x + y * a = x * a + y * a ∈ p-adics(p)))

9. ∀[x,y:p-adics(p)].  (x * y = y * x ∈ p-adics(p))
⊢ Comm(padic(p);λu,v. pa-mul(p;u;v))
BY
{ (((D 0 THEN Reduce 0) THENW Auto)
   THEN Intros
   THEN DVar `x'
   THEN DVar `y'
   THEN RepUR ``pa-mul bpa-mul`` 0
   THEN (EqCDA THEN Auto)
   THEN Unfold `basic-padic` 0
   THEN EqCD
   THEN Auto) }

1
.....subterm..... T:t
2:n
1. p : {2...}
2. ℤ(p) ∈ RngSig
3. ∀[x,y,z:p-adics(p)].  (x + y + z = x + y + z ∈ p-adics(p))
4. ∀[x:p-adics(p)]. ((x + 0(p) = x ∈ p-adics(p)) ∧ (0(p) + x = x ∈ p-adics(p)))
5. ∀[x:p-adics(p)]. ((x + -(x) = 0(p) ∈ p-adics(p)) ∧ (-(x) + x = 0(p) ∈ p-adics(p)))
6. ∀[x,y,z:p-adics(p)].  (x * y * z = x * y * z ∈ p-adics(p))
7. ∀[x:p-adics(p)]. ((x * 1(p) = x ∈ p-adics(p)) ∧ (1(p) * x = x ∈ p-adics(p)))

8. ∀[a,x,y:p-adics(p)].  ((a * x + y = a * x + a * y ∈ p-adics(p)) ∧ (x + y * a = x * a + y * a ∈ p-adics(p)))

9. ∀[x,y:p-adics(p)]. (x * y = y * x ∈ p-adics(p))
10. n : ℕ
11. x1 : if (n =_z 0) then p-adics(p) else p-units(p) fi
12. n1 : ℕ
13. y1 : if (n1 =_z 0) then p-adics(p) else p-units(p) fi
⊢ x1 * y1 = y1 * x1 ∈ p-adics(p)

Latex:

Latex:
1. p : \{2...\} 2. \mBbbZ{}(p) \mmember{} RngSig 3. \mforall{}[x,y,z:p-adics(p)]. (x + y + z = x + y + z) 4. \mforall{}[x:p-adics(p)]. ((x + 0(p) = x) \mwedge{} (0(p) + x = x)) 5. \mforall{}[x:p-adics(p)]. ((x + -(x) = 0(p)) \mwedge{} (-(x) + x = 0(p))) 6. \mforall{}[x,y,z:p-adics(p)]. (x * y * z = x * y * z) 7. \mforall{}[x:p-adics(p)]. ((x * 1(p) = x) \mwedge{} (1(p) * x = x)) 8. \mforall{}[a,x,y:p-adics(p)]. ((a * x + y = a * x + a * y) \mwedge{} (x + y * a = x * a + y * a)) 9. \mforall{}[x,y:p-adics(p)]. (x * y = y * x) \mvdash{} Comm(padic(p);\mlambda{}u,v. pa-mul(p;u;v)) By Latex: (((D 0 THEN Reduce 0) THENW Auto) THEN Intros THEN DVar `x' THEN DVar `y' THEN RepUR ``pa-mul bpa-mul`` 0 THEN (EqCDA THEN Auto) THEN Unfold `basic-padic` 0 THEN EqCD THEN Auto) Home Index