Proof of Nuprl Lemma : rsum-telescopes

Step * 1 1 1 1 1 of Lemma rsum-telescopes

1. n : ℤ
2. m : {n...}
3. x : {n..m + 1^-} ⟶ ℝ
4. y : {n..m + 1^-} ⟶ ℝ
5. ∀i:{n..m^-}. (y[i + 1] = x[i])
6. d : ℤ
7. ¬n + d < n
8. 0 < d
9. ((d - 1) ≤ (m - n)) ⇒ (Σ{x[k] - y[k] | n≤k≤n + (d - 1)} = (x[n + (d - 1)] - y[n]))
10. d ≤ (m - n)
11. y[(n + (d - 1)) + 1] = x[n + (d - 1)]
⊢ ((y[(n + (d - 1)) + 1] - y[n]) + (x[n + d] - y[n + d])) = (x[n + d] - y[n])
BY
{ (Subst' (n + (d - 1)) + 1 ~ n + d 0 THENA Auto)⋅ }

1
1. n : ℤ
2. m : {n...}
3. x : {n..m + 1^-} ⟶ ℝ
4. y : {n..m + 1^-} ⟶ ℝ
5. ∀i:{n..m^-}. (y[i + 1] = x[i])
6. d : ℤ
7. ¬n + d < n
8. 0 < d
9. ((d - 1) ≤ (m - n)) ⇒ (Σ{x[k] - y[k] | n≤k≤n + (d - 1)} = (x[n + (d - 1)] - y[n]))
10. d ≤ (m - n)
11. y[(n + (d - 1)) + 1] = x[n + (d - 1)]
⊢ ((y[n + d] - y[n]) + (x[n + d] - y[n + d])) = (x[n + d] - y[n])

Latex:

Latex:
1. n : \mBbbZ{} 2. m : \{n...\} 3. x : \{n..m + 1\msupminus{}\} {}\mrightarrow{} \mBbbR{} 4. y : \{n..m + 1\msupminus{}\} {}\mrightarrow{} \mBbbR{} 5. \mforall{}i:\{n..m\msupminus{}\}. (y[i + 1] = x[i]) 6. d : \mBbbZ{} 7. \mneg{}n + d < n 8. 0 < d 9. ((d - 1) \mleq{} (m - n)) {}\mRightarrow{} (\mSigma{}\{x[k] - y[k] | n\mleq{}k\mleq{}n + (d - 1)\} = (x[n + (d - 1)] - y[n])) 10. d \mleq{} (m - n) 11. y[(n + (d - 1)) + 1] = x[n + (d - 1)] \mvdash{} ((y[(n + (d - 1)) + 1] - y[n]) + (x[n + d] - y[n + d])) = (x[n + d] - y[n]) By Latex: (Subst' (n + (d - 1)) + 1 \msim{} n + d 0 THENA Auto)\mcdot{} Home Index