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Koch curve (Definition)

A Koch curve is a fractal generated by a replacement rule. This rule is, at each step, to replace the middle $ 1/3$ of each line segment with two sides of a right triangle having sides of length equal to the replaced segment. Two applications of this rule on a single line segment gives us:

\includegraphics[scale=.6]{koch1}

To generate the Koch curve, the rule is applied indefinitely, with a starting line segment. Note that, if the length of the initial line segment is $ l$, the length $ L_K$ of the Koch curve at the $ n$th step will be

$\displaystyle L_K = \left( \frac{4}{3} \right)^n l $

This quantity increases without bound; hence the Koch curve has infinite length. However, the curve still bounds a finite area. We can prove this by noting that in each step, we add an amount of area equal to the area of all the equilateral triangles we have just created. We can bound the area of each triangle of side length $ s$ by $ s^2$ (the square containing the triangle.) Hence, at step $ n$, the area $ A_K$ ``under'' the Koch curve (assuming $ l=1$) is


$\displaystyle A_K$ $\displaystyle <$ $\displaystyle \left(\frac{1}{3}\right)^2 + 3 \left(\frac{1}{9}\right)^2 + 9 \left(\frac{1}{27}\right)^2 + \cdots$  
  $\displaystyle =$ $\displaystyle \sum_{i=1}^n \frac{1}{3^{i-1}}$  

but this is a geometric series of ratio less than one, so it converges. Hence a Koch curve has infinite length and bounds a finite area.

A Koch snowflake is the figure generated by applying the Koch replacement rule to an equilateral triangle indefinitely.



"Koch curve" is owned by akrowne.
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Other names:  Koch snowflake
Keywords:  fractals
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Cross-references: converges, ratio, geometric series, square, triangle, equilateral triangles, area, finite, curve, infinite, bound, generate, applications, segment, length, right triangle, sides, line segment, generated by, fractal
There are 6 references to this entry.

This is version 4 of Koch curve, born on 2002-01-03, modified 2005-02-28.
Object id is 1186, canonical name is KochCurve.
Accessed 20169 times total.

Classification:
AMS MSC28A80 (Measure and integration :: Classical measure theory :: Fractals)
 28A33 (Measure and integration :: Classical measure theory :: Spaces of measures, convergence of measures)
Pending Errata and Addenda
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