Let Sum from n=1 to infinity (an) be a convergent series with monotonically decreasing positive terms....

3. Let ∑an be a conditionally convergent series. Prove that there exists a rearrangement ∑a_f(n) diverging...

3. Let ∑an be a conditionally convergent series. Prove that there exists a rearrangement ∑a_f(n) diverging to positive infinity

Show that the series sum(an) from n=1 to infinity where each an >= 0 converges if...

Show that the series sum(an) from n=1 to infinity where each an >= 0 converges if and only if for every epsilon>0 there is an integer N such that | sum(ak ) from k=N to infinity | < epsilon

If a series is convergent , what must be true of the individual terms of the...

If a series is convergent , what must be true of the individual terms of the series as n tends towards infinity ? 1b) Is every absolutely convergent series also convergent ? Justify your ans

Find the Sum of a Convergent Series: a.) ∑∞?=0 (-4/9)n b.) ∑∞?=0 1/(n+1)(n+4)

Find the Sum of a Convergent Series: a.) ∑∞?=0 (-4/9)n b.) ∑∞?=0 1/(n+1)(n+4)

State whether the given series converges or diverges, and why. #21 sum 1/n^5, n=1 to infinity...

State whether the given series converges or diverges, and why. #21 sum 1/n^5, n=1 to infinity #22 sum 1/5^n, n=0 to infinity #23 sum 6^n / 5^n, n=0 to infinity #24 sum n^-4, n=1 to infinity #25 sum sqrt(n), n=1 to infinity

Determine whether the series is convergent or divergent. If it is convergent, find its sum. (a)...

Determine whether the series is convergent or divergent. If it is convergent, find its sum. (a) ∑_(n=1)^∞ (e2/2π)n (b) ∑_(n=1)^∞ 〖[(-0.2)〗n+(0.6)n-1]〗 (c) ∑_(k=0)^∞ (√2)-k

determine whether the alternating series ∑ (1 to ^ infinity) (-1)^(n+1) 3^n / (n +1)! is...

determine whether the alternating series ∑ (1 to ^ infinity) (-1)^(n+1) 3^n / (n +1)! is absolutely convergent, conditionally convergent or divergent.

If (xn) ∞ to n=1 is a convergent sequence with limn→∞ xn = 0 prove that...

If (xn) ∞ to n=1 is a convergent sequence with limn→∞ xn = 0 prove that lim n→∞ (x1 + x2 + · · · + xn)/ n = 0 .

) Let α be a fixed positive real number, α > 0. For a sequence {xn},...

) Let α be a fixed positive real number, α > 0. For a sequence {xn}, let x1 > √ α, and define x2, x3, x4, · · · by the following recurrence relation xn+1 = 1 2 xn + α xn (a) Prove that {xn} decreases monotonically (in other words, xn+1 − xn ≤ 0 for all n). (b) Prove that {xn} is bounded from below. (Hint: use proof by induction to show xn > √ α for all...

Suppose convergent series Ak has partial sums: an And a series Bk has partial sums: bn...

Suppose convergent series Ak has partial sums: an And a series Bk has partial sums: bn Suppose lim(bn-an) =0, as n to infinity. Whether series Bk is converges or not? Prove. Suppose lim(Bk-Ak) =0, as k to infinity. Whether series Bk is converges or not? Prove.