dttom Posted May 6, 2010 Posted May 6, 2010 The geometric sum to infinity of a series with a ratio of r, and started with a, is calculated to be: G(infinity) = a/(1-r) But I am thinking of: Each term in a series could be represented by: a(0) = a; a(n) = ar^n, so why can't we integrate a(n) with respective to dn, giving us (ar^n)/(ln®), but obviously this is the the expected answer. I'm interested in what makes such a difference. Thanks.
the tree Posted May 6, 2010 Posted May 6, 2010 Briefly, the difference between [imath]\sum f(x)[/imath] and [imath]\int f(x)[/imath] is that you're not counting the values between the integers. Have you done Riemann sums at all? The Riemann integral is the limit of the Riemann sums of a function as the partitions get finer, but in this case the partitions have a constant width of 1.
the tree Posted May 6, 2010 Posted May 6, 2010 If you take a look at the attached image, you should see how the areas under the two graphs are not the same.
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