Proof of Nuprl Lemma : int-to-ring-mul

Step * 1 of Lemma int-to-ring-mul

1. r : Rng
2. a1 : ℤ
3. a2 : ℤ
⊢ int-to-ring(r;a1 * a2) = (int-to-ring(r;a1) * int-to-ring(r;a2)) ∈ |r|
BY
{ ((Assert ⌜∀n:ℕ. ∀x:ℤ.  (|x| < n ⇒ (∀y:ℤ. (int-to-ring(r;x * y) = (int-to-ring(r;x) * int-to-ring(r;y)) ∈ |r|)))⌝⋅
   THENM (InstHyp [⌜|a1| + 1⌝;⌜a1⌝;⌜a2⌝] (-1)⋅ THEN Auto)
   )
   THEN InductionOnNat
   THEN Auto') }

1
1. r : Rng
2. a1 : ℤ
3. a2 : ℤ
4. n : ℤ
5. 0 < n
6. ∀x:ℤ. (|x| < n - 1 ⇒ (∀y:ℤ. (int-to-ring(r;x * y) = (int-to-ring(r;x) * int-to-ring(r;y)) ∈ |r|)))
7. x : ℤ
8. |x| < n
9. y : ℤ
⊢ int-to-ring(r;x * y) = (int-to-ring(r;x) * int-to-ring(r;y)) ∈ |r|

Latex:

Latex:
1. r : Rng 2. a1 : \mBbbZ{} 3. a2 : \mBbbZ{} \mvdash{} int-to-ring(r;a1 * a2) = (int-to-ring(r;a1) * int-to-ring(r;a2)) By Latex: ((Assert \mkleeneopen{}\mforall{}n:\mBbbN{}. \mforall{}x:\mBbbZ{}. (|x| < n {}\mRightarrow{} (\mforall{}y:\mBbbZ{}. (int-to-ring(r;x * y) = (int-to-ring(r;x) * int-to-ring(r;y)))))\mkleeneclose{}\mcdot{} THENM (InstHyp [\mkleeneopen{}|a1| + 1\mkleeneclose{};\mkleeneopen{}a1\mkleeneclose{};\mkleeneopen{}a2\mkleeneclose{}] (-1)\mcdot{} THEN Auto) ) THEN InductionOnNat THEN Auto') Home Index