perplexus.info :: Just Math : Evaluate this sum

Evaluate this sum (Posted on 2005-12-21)

Evaluate this sum in terms of n (the number of terms):

        1      2       4        8          16         
   S = --- + ----- + ----- + ------- + ---------- + ..... 
        2      5       41     3,281    21,523,361

See The Solution Submitted by pcbouhid

Rating: 4.3333 (3 votes)

Comments: ( Back to comment list | You must be logged in to post comments.)

re(2): Solution

| Comment 12 of 15 |

(In reply to re: Solution by pcbouhid)

IF (as previous writers have been supposing) the nth term, a(n) is given by a(n) = 2^n/(1 + 3^2^(n - 1)) we claim for n>=1 that

Sum[2^k/(1 + 3^2^(k - 1)), {k, 1, n}] = 1 - 2^(1 + n)/( 3^2^n - 1) = s(n)

Then for n = 1

Sum[2^k/(1 + 3^2^(k - 1)), {k, 1, 1}] = 1/2 = 1 - 2^(n + 1)/( 3^2^n - 1) = s(1)

Having established a basis, we assume equality for n = k -1: i.e.

Sum[2^k/(1 + 3^2^(k - 1)), {k, 1, k - 1}] = s(k -1)

Then for n =k, it is fairly straightforward to show

Sum[2^k/(1 + 3^2^(k - 1)), {k, 1, k}] = a(k) + s(k-1) = s(k)

So the claim is true by induction.

Edited on December 22, 2005, 11:50 am

Posted by goFish on 2005-12-22 11:47:12

Please log in:

Login:
Password:
Remember me:

Sign up! \| Forgot password

Search:

Search body:

Forums (0)
Newest Problems
Random Problem
FAQ | About This Site
Site Statistics
New Comments (3)
Unsolved Problems
Top Rated Problems
This month's top
Most Commented On

Chatterbox:


perplexus dot info