Difference between revisions of "Apothem"

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The '''apothem''' of a [[regular polygon]] is the [[line segment]] drawn from the [[center]] of the [[polygon]] [[perpendicular]] to one of its [[edge]]s. It is also the [[radius]] of the [[incircle | inscribed circle]] of the polygon.
 
The '''apothem''' of a [[regular polygon]] is the [[line segment]] drawn from the [[center]] of the [[polygon]] [[perpendicular]] to one of its [[edge]]s. It is also the [[radius]] of the [[incircle | inscribed circle]] of the polygon.
  
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Given the length of the apothem, <math>a</math>, and the [[perimeter]], <math>p</math>, of a regular polygon, the [[area]] of the polygon is <math>\frac{ap}{2}</math>, or <math>as</math>, where <math>s</math> is the [[semiperimeter]].
 
Given the length of the apothem, <math>a</math>, and the [[perimeter]], <math>p</math>, of a regular polygon, the [[area]] of the polygon is <math>\frac{ap}{2}</math>, or <math>as</math>, where <math>s</math> is the [[semiperimeter]].
  
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[[Category:Definition]]

Revision as of 19:37, 19 November 2007

The apothem of a regular polygon is the line segment drawn from the center of the polygon perpendicular to one of its edges. It is also the radius of the inscribed circle of the polygon.

Formulas

Given the number of sides, $n$, and side length, $s$, the length of the apothem is $\frac{s}{2\tan\left(\frac{\pi}{n}\right)}$.

Given the number of sides, $n$, and radius of the circumscribed circle, $R$, the length of the apothem is $R\cos\left(\frac{\pi}{n}\right)$.

Given the length of the apothem, $a$, and the perimeter, $p$, of a regular polygon, the area of the polygon is $\frac{ap}{2}$, or $as$, where $s$ is the semiperimeter.

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