Proof of Nuprl Lemma : mul-monomials-req

Step * 1 1 1 2 1 2 of Lemma mul-monomials-req

1. f : ℤ ⟶ ℝ
2. u : ℤ
3. v : ℤ List

4. ∀as:ℤ List. (real_term_value(f;imonomial-term(<1, merge-int(as;v)>)) = (real_term_value(f;imonomial-term(<1, as>)) * \000Creal_term_value(f;imonomial-term(<1, v>))))

5. as : ℤ List

6. real_term_value(f;imonomial-term(<1, merge-int(as;v)>)) = (real_term_value(f;imonomial-term(<1, as>)) * real_term_val\000Cue(f;imonomial-term(<1, v>)))

7. real_term_value(f;imonomial-term(<1, insert-int(u;merge-int(as;v))>)) = ((f u) * real_term_value(f;imonomial-term(<1,\000C merge-int(as;v)>)))

⊢ (r1 * real_term_value(f;imonomial-term(<1, insert-int(u;merge-int(as;v))>))) = ((r1 * real_term_value(f;imonomial-term\000C(<1, as>))) * r1 * real_term_value(f;imonomial-term(<1, [u / v]>)))

BY
{ ((RWO "-1" 0 THEN Auto) THEN RWO "-2" 0 THEN Auto) }

Latex:

Latex:
1. f : \mBbbZ{} {}\mrightarrow{} \mBbbR{} 2. u : \mBbbZ{} 3. v : \mBbbZ{} List 4. \mforall{}as:\mBbbZ{} List. (real\_term\_value(f;imonomial-term(ə, merge-int(as;v)>)) = (real\_term\_value(f;imonomi\000Cal-term(ə, as>)) * real\_term\_value(f;imonomial-term(ə, v>)))) 5. as : \mBbbZ{} List 6. real\_term\_value(f;imonomial-term(ə, merge-int(as;v)>)) = (real\_term\_value(f;imonomial-term(ə, a\000Cs>)) * real\_term\_value(f;imonomial-term(ə, v>))) 7. real\_term\_value(f;imonomial-term(ə, insert-int(u;merge-int(as;v))>)) = ((f u) * real\_term\_value(f;imonomial-term(ə, merge-int(as;v)>))) \mvdash{} (r1 * real\_term\_value(f;imonomial-term(ə, insert-int(u;merge-int(as;v))>))) = ((r1 * real\_term\_value(f;imonomial-term(ə, as>))) * r1 * real\_term\_value(f;imonomial-term(ə, [u \000C/ v]>))) By Latex: ((RWO "-1" 0 THEN Auto) THEN RWO "-2" 0 THEN Auto) Home Index