Difference between revisions of "Equilateral triangle"

(Picture included)
 
Line 17: Line 17:
  
 
One useful way to manipulate an equilateral triangle is to draw an [[altitude]], which would divide it into two 30-60-90 [[right triangle]]s. Using this, the area of an equilateral triangle can be found in terms of a side: <math>\frac{s^2\sqrt{3}}{4}</math>.
 
One useful way to manipulate an equilateral triangle is to draw an [[altitude]], which would divide it into two 30-60-90 [[right triangle]]s. Using this, the area of an equilateral triangle can be found in terms of a side: <math>\frac{s^2\sqrt{3}}{4}</math>.
 +
 +
Notice that all equilateral triangles are similar (since all equilateral triangles have the same angle measurements, so, by AA similarity, all equilateral triangles are similar).
 
[[Category:Geometry]]
 
[[Category:Geometry]]

Latest revision as of 17:25, 3 August 2018

This article is a stub. Help us out by expanding it.

[asy] pair A=(0,50),B=(43.301,-25),C=(-43.301,-25); draw(A--B--C--A); label("$60^{\circ}$",(-28,-16)); draw(anglemark(B,C,A,300)); label("$60^{\circ}$",(28,-16)); draw(anglemark(A,B,C,300)); label("$60^{\circ}$",(0,35)); draw(anglemark(C,A,B,300)); [/asy]

An equilateral triangle is a triangle in which all sides have equal length and all angles have equal measure. Since a triangle has a total of $180$ degrees, each angle of an equilateral triangle has $60$ degrees.

The equilateral triangle is the simplest regular polygon. It is also the only type of polygon that such that the equilateral polygon must also be the equiangular polygon.

One useful way to manipulate an equilateral triangle is to draw an altitude, which would divide it into two 30-60-90 right triangles. Using this, the area of an equilateral triangle can be found in terms of a side: $\frac{s^2\sqrt{3}}{4}$.

Notice that all equilateral triangles are similar (since all equilateral triangles have the same angle measurements, so, by AA similarity, all equilateral triangles are similar).

Invalid username
Login to AoPS