Direct comparison test

In mathematics, the comparison test, sometimes called the direct comparison test or CQT (in contrast with the related limit comparison test) is a criterion for convergence or divergence of a series whose terms are real or complex numbers. The test determines convergence by comparing the terms of the series in question with those of a series whose convergence properties are known.

The comparison test states that if the series

${\displaystyle \sum _{n=1}^{\infty }b_{n}}$

is an absolutely convergent series and ${\displaystyle |a_{n}|\leq |b_{n}|}$ for sufficiently large n , then the series

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

converges absolutely. In this case b is said to "dominate" a. If the series

${\displaystyle \sum _{n=1}^{\infty }|b_{n}|}$

is divergent and ${\displaystyle |a_{n}|\geq |b_{n}|}$ for sufficiently large n , then the series

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

also fails to converge absolutely (though it could still be conditionally convergent, e.g. if the a_n  alternate in sign).

Let ${\displaystyle |a_{n}|\leq |b_{n}|}$. Let the partial sums of these series be ${\displaystyle S_{n}}$ and ${\displaystyle T_{n}}$ respectively i.e.

${\displaystyle S_{n}=|a_{1}|+|a_{2}|+\ldots +|a_{n}|,\quad T_{n}=|b_{1}|+|b_{2}|+\ldots +|b_{n}|.}$

${\displaystyle T_{n}}$ converges as ${\displaystyle n\rightarrow \infty }$. Denote its limit as ${\displaystyle T}$. We then have

${\displaystyle S_{n}=|a_{1}|+|a_{2}|+\ldots +|a_{n}|\leq |b_{1}|+|b_{2}|+\ldots +|b_{n}|\leq T}$

which gives us

${\displaystyle 0\leq S_{n}\leq T}$

This shows that ${\displaystyle S_{n}}$ is a bounded monotonic sequence and must converge to a limit.

• Knopp, Konrad, "Infinite Sequences and Series", Dover publications, Inc., New York, 1956. (§ 3.1) ISBN 0-486-60153-6

• Whittaker, E. T., and Watson, G. N., A Course in Modern Analysis, fourth edition, Cambridge University Press, 1963. (§ 2.34) ISBN 0-521-58807-3

• Convergence tests
• Limit comparison test
• Radius of convergence