Geometric series: Difference between revisions

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A geometric series is a series associated with an infinite geometric sequence, i.e., the quotient q of two consecutive terms is the same for each pair.

A geometric series converges if and only if −1<q<1.

Its sum is ${\displaystyle a \over 1-q}$ where a is the first term of series.

Power series

Any geometric series

${\displaystyle \sum _{k=1}^{\infty }a_{k}}$

can be written as

${\displaystyle a\sum _{k=0}^{\infty }x^{k}}$

where

${\displaystyle a=a_{1}\qquad {\textrm {and}}\qquad x={a_{k+1} \over a_{k}}\in \mathbb {C} {\hbox{ is the constant quotient}}}$

The partial sums of the power series are

${\displaystyle S_{n}=\sum _{k=0}^{n-1}x^{k}=1+x+x^{2}+\cdots +x^{n-1}={\begin{cases}{\displaystyle {\frac {1-x^{n}}{1-x}}}&{\hbox{for }}x\neq 1\\n\cdot 1&{\hbox{for }}x=1\end{cases}}}$

The infinite geometric series ${\displaystyle a\sum _{k=1}^{\infty }x^{k-1}}$ converges when |x| < 1, because in that case x^k tends to zero for ${\displaystyle k\rightarrow \infty }$ and hence

${\displaystyle \lim _{n\rightarrow \infty }S_{n}={\frac {a}{1-x}},\quad {\hbox{for}}\quad |x|<1.}$

The geometric series diverges for |x| ≥ 1.