CZ:Featured article/Current: Difference between revisions

Revision as of 10:47, 8 October 2011

A geometric series is a series associated with a geometric sequence, i.e., the ratio (or quotient) q of two consecutive terms is the same for each pair.

Thus, every geometric series has the form

a+aq+aq^{2}+aq^{3}+\cdots

where the quotient (ratio) of the (n+1)th and the nth term is

{\frac {aq^{n}}{aq^{n-1}}}=q.

The sum of the first n terms of a geometric sequence is called the n-th partial sum (of the series); its formula is given below (S_n).

An infinite geometric series (i.e., a series with an infinite number of terms) converges if and only if |q|<1, in which case its sum is $a \over 1-q$ , where a is the first term of the series.

In finance, since compound interest generates a geometric sequence, regular payments together with compound interest lead to a geometric series.

.... (read more)

@@ Line 1: / Line 1: @@
-A '''[[geometric series]]''' is a [[series (mathematics)|series]] associated with a [[geometric sequence]],
+A '''[[geometric series]]''' is a series associated with a geometric sequence,
 i.e., the ratio (or quotient) ''q'' of two consecutive terms is the same for each pair.
@@ Line 15: / Line 15: @@
 An infinite geometric series (i.e., a series with an infinite number of terms)  converges if and only if |''q''|<1, in which case its sum is <math> a \over 1-q </math>, where ''a'' is the first term of the series.
-In finance, since compound [[interest rate|interest]] generates a geometric sequence,
+In finance, since compound interest generates a geometric sequence,
 regular payments together with compound interest lead to a geometric series.
 ''[[Geometric series|.... (read more)]]''

CZ:Featured article/Current: Difference between revisions

Revision as of 10:47, 8 October 2011

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