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If I want to obtain the best approximate fraction/rational for a given real number and the specificied maximum denominator as an integer, how to do this in mathematica? Many thanks.

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The convergents of a continued fraction representation give you successively better approximations of a real number. –  David Carraher Mar 7 '11 at 21:38

2 Answers 2

up vote 3 down vote accepted

Look at Help for Rationalize. RootApproximant can be also useful

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Convergents of continued fractions offer a useful method for getting better and better fractional representations of an irrational number. I've also found them helpful for understanding connections to other ideas by way of the Euclidean algorithm.

Let's use convergents to approximate pi and the square root of two.

ClearAll[approximate];

approximate[r_, nConvergents_: 8, precision_: 10] := 
   With[{c = Convergents[ContinuedFraction[r, nConvergents]]}, 
   TableForm[Transpose[{c, N[r - c, precision]}], 
   TableHeadings -> {None, {Row[{"approximation of ", r}], "error"}}]]

Here's are the first 8 convergents for pi:

approximate[Pi]

approximate pi

Here are the first 8 convergents for Sqrt[2]:

approximate[Sqrt[2]]

approximate root 2

The successive error terms shrink and alternate direction as convergence advances.

In approximate, you can optionally specify the number of convergents and precision desired.

Enjoy.


Here's some additional documentation about continued fractions, including some lovely demonstrations.

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@Qiang Li Here is an example of convergents homing in on an irrational number. There are some interesting geometric representations of this in the Cartesian plane. See also: Continued fraction –  David Carraher Mar 7 '11 at 21:53
    
thank you. ContinuedFraction is a nice approach for this problem. –  Qiang Li Mar 7 '11 at 22:10
    
+1 Nice, David. –  Mr.Wizard Mar 7 '11 at 22:55

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