Proof of Nuprl Lemma : rP_to_poly-int_term_to

Step * 2 1 2 of Lemma rP_to_poly-int_term_to_rP

1. int_term() ⊆r Base
2. (iPolynomial() List) ⊆r Base
3. ∀t:int_term(). ∀s:iPolynomial() List. ∀L:ℤ List.
     (rP_to_poly(s;int_term_to_rP(t) @ L) ~ rP_to_poly([int_term_to_ipoly(t) / s];L))
⊢ ∀t:int_term(). ∀s:iPolynomial() List.  (rP_to_poly(s;int_term_to_rP(t)) ~ [int_term_to_ipoly(t) / s])
BY
{ RepeatFor 2 (ParallelLast) }

1
1. int_term() ⊆r Base
2. (iPolynomial() List) ⊆r Base
3. ∀t:int_term(). ∀s:iPolynomial() List. ∀L:ℤ List.
     (rP_to_poly(s;int_term_to_rP(t) @ L) ~ rP_to_poly([int_term_to_ipoly(t) / s];L))
4. t : int_term()

5. ∀s:iPolynomial() List. ∀L:ℤ List.  (rP_to_poly(s;int_term_to_rP(t) @ L) ~ rP_to_poly([int_term_to_ipoly(t) / s];L))

6. s : iPolynomial() List
7. ∀L:ℤ List. (rP_to_poly(s;int_term_to_rP(t) @ L) ~ rP_to_poly([int_term_to_ipoly(t) / s];L))
⊢ rP_to_poly(s;int_term_to_rP(t)) ~ [int_term_to_ipoly(t) / s]

Latex:

Latex:
1. int\_term() \msubseteq{}r Base 2. (iPolynomial() List) \msubseteq{}r Base 3. \mforall{}t:int\_term(). \mforall{}s:iPolynomial() List. \mforall{}L:\mBbbZ{} List. (rP\_to\_poly(s;int\_term\_to\_rP(t) @ L) \msim{} rP\_to\_poly([int\_term\_to\_ipoly(t) / s];L)) \mvdash{} \mforall{}t:int\_term(). \mforall{}s:iPolynomial() List. (rP\_to\_poly(s;int\_term\_to\_rP(t)) \msim{} [int\_term\_to\_ipoly(t) / s]) By Latex: RepeatFor 2 (ParallelLast) Home Index