Proof of Nuprl Lemma : partition-sum-rmul-const

Step * 1 of Lemma partition-sum-rmul-const

1. I : Interval
2. icompact(I)
3. f : I ⟶ℝ
4. c : ℝ
5. p : partition(I)
6. y : partition-choice(full-partition(I;p))
7. a : ℕ||p|| + 1 ⟶ {x:ℝ| x ∈ I}
8. y = a ∈ (ℕ||p|| + 1 ⟶ {x:ℝ| x ∈ I} )

⊢ Σ{(c * (f (a i))) * (full-partition(I;p)[i + 1] - full-partition(I;p)[i]) | 0≤i≤||full-partition(I;p)|| - 2}

= (c * Σ{(f (a i)) * (full-partition(I;p)[i + 1] - full-partition(I;p)[i]) | 0≤i≤||full-partition(I;p)|| - 2})

BY
{ ((Assert ||full-partition(I;p)|| = (||p|| + 2) ∈ ℤ BY
          (Unfold `full-partition` 0 THEN Auto'))
   THEN (RWO "rsum_linearity2<" 0 THENA Auto)
   ) }

1
1. I : Interval
2. icompact(I)
3. f : I ⟶ℝ
4. c : ℝ
5. p : partition(I)
6. y : partition-choice(full-partition(I;p))
7. a : ℕ||p|| + 1 ⟶ {x:ℝ| x ∈ I}
8. y = a ∈ (ℕ||p|| + 1 ⟶ {x:ℝ| x ∈ I} )
9. ||full-partition(I;p)|| = (||p|| + 2) ∈ ℤ

⊢ Σ{(c * (f (a i))) * (full-partition(I;p)[i + 1] - full-partition(I;p)[i]) | 0≤i≤||full-partition(I;p)|| - 2}

= Σ{c * (f (a i)) * (full-partition(I;p)[i + 1] - full-partition(I;p)[i]) | 0≤i≤||full-partition(I;p)|| - 2}

Latex:

Latex:
1. I : Interval 2. icompact(I) 3. f : I {}\mrightarrow{}\mBbbR{} 4. c : \mBbbR{} 5. p : partition(I) 6. y : partition-choice(full-partition(I;p)) 7. a : \mBbbN{}||p|| + 1 {}\mrightarrow{} \{x:\mBbbR{}| x \mmember{} I\} 8. y = a \mvdash{} \mSigma{}\{(c * (f (a i))) * (full-partition(I;p)[i + 1] - full-partition(I;p)[i]) | 0\mleq{}i\mleq{}||full-partition(I;p)|| - 2\} = (c * \mSigma{}\{(f (a i)) * (full-partition(I;p)[i + 1] - full-partition(I;p)[i]) | 0\mleq{}i\mleq{}||full-partition(I;p)|| - 2\}) By Latex: ((Assert ||full-partition(I;p)|| = (||p|| + 2) BY (Unfold `full-partition` 0 THEN Auto')) THEN (RWO "rsum\_linearity2<" 0 THENA Auto) ) Home Index