Proof of Nuprl Lemma : harmonic-series-diverges

Step * 1 3 2 1 1 1 1 of Lemma harmonic-series-diverges

.....truecase.....
1. r0 < (r1/r(2))
2. k : ℕ
3. k ≤ (2^(k + 1) - 1)
4. k ≤ (2^k - 1)

5. (Σ{(r1/r(i + 1)) | 0≤i≤2^(k + 1) - 1} - Σ{(r1/r(i + 1)) | 0≤i≤2^k - 1}) = Σ{(r1/r(i + 1)) | 2^k≤i≤2^(k + 1) - 1}

6. ((r1/r(2^(k + 1))) * r0) ≤ Σ{(r1/r(i + 1)) | 2^k≤i≤2^(k + 1) - 1}
7. 2^(k + 1) - 1 < 2^k
⊢ (r1/r(2)) ≤ |Σ{(r1/r(i + 1)) | 2^k≤i≤2^(k + 1) - 1}|
BY
{ (RWW "exp_add exp1" (-1) THEN Auto') }

Latex:

Latex:
.....truecase..... 1. r0 < (r1/r(2)) 2. k : \mBbbN{} 3. k \mleq{} (2\^{}(k + 1) - 1) 4. k \mleq{} (2\^{}k - 1) 5. (\mSigma{}\{(r1/r(i + 1)) | 0\mleq{}i\mleq{}2\^{}(k + 1) - 1\} - \mSigma{}\{(r1/r(i + 1)) | 0\mleq{}i\mleq{}2\^{}k - 1\}) = \mSigma{}\{(r1/r(i + 1)) | 2\^{}k\mleq{}i\mleq{}2\^{}(k + 1) - 1\} 6. ((r1/r(2\^{}(k + 1))) * r0) \mleq{} \mSigma{}\{(r1/r(i + 1)) | 2\^{}k\mleq{}i\mleq{}2\^{}(k + 1) - 1\} 7. 2\^{}(k + 1) - 1 < 2\^{}k \mvdash{} (r1/r(2)) \mleq{} |\mSigma{}\{(r1/r(i + 1)) | 2\^{}k\mleq{}i\mleq{}2\^{}(k + 1) - 1\}| By Latex: (RWW "exp\_add exp1" (-1) THEN Auto') Home Index