Difference between revisions of "Right triangle"

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[[Image:Righttriangle.png]]
 
[[Image:Righttriangle.png]]
  
In the image above, you see that in triangle <math>\triangle ABC</math>, angle C has a measure of 90 degrees, so <math>\triangle ABC</math> is a right triangle.  The sides of a right triangle have different names: The longest side, opposite the right angle, is called the [[hypotenuse]].  In the diagram, the hypotenuse is labelled c.  The other two sides are called the legs of the triangle.
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In the image above, you see that in triangle <math>\triangle ABC</math>, angle C has a measure of 90 degrees, so <math>\triangle ABC</math> is a right triangle.  The sides of a right triangle have different names: The longest side, opposite the right angle, is called the [[hypotenuse]].  In the diagram, the hypotenuse is labeled c.  The other two sides are called the legs of the triangle.
  
Right triangles are very useful in [[geometry]] and for finding the [[area]]s of [[polygon]]s.  The most important relationship for right triangles is the [[Pythagorean Theorem]].  In addition, the field of [[trigonometry]] arises from the study of right triangles, and nearly all [[trigonometric identities]] can be deduced from them.
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Right triangles are very useful in [[geometry]] and for finding the [[area]]s of [[polygon]]s.  The most important relationship for right triangles is the [[Pythagorean Theorem]].  Besides, the field of [[trigonometry]] arises from the study of right triangles, and nearly all [[trigonometric identities]] can be deduced from them.
  
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== Special right triangles ==
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Several well-known right triangles are easy to solve. These include the [[isosceles triangle|isosceles]] <math>45-45-90</math>, where the hypotenuse is equal to <math>\sqrt{2}</math> times the length of either of the legs. The <math>30-60-90</math> has sides in the ratio of <math>x:x\sqrt3:2x</math>.
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If the lengths of the legs and hypotenuse are integral, then they form a [[Pythagorean triple]].
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Some well known Pythagorean triples include 3-4-5, 5-12-13, 7-24-25, and others.
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== Properties ==
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The [[area]] of the triangle can be calculated using half of the product of the lengths of the legs. It can also be calculated using half of the product of the [[median of a triangle|median]] to the hypotenuse and the hypotenuse. Using similarity, it is possible to derive several formulas relating the sides, the hypotenuse, and the median.
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The [[circumradius]] is equal to half of the hypotenuse, or the median to the hypotenuse.
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== Problems ==
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[[2007 AMC 12A Problems/Problem 10 | 2007 AMC 12A Problem 10]]
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== See also ==
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*[[Acute triangle]]
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*[[Obtuse triangle]]
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*[[Special Right Triangles]]
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[[Category:Definition]]
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[[Category:Geometry]]

Revision as of 20:20, 11 December 2020

A right triangle is any triangle with an angle of 90 degrees (that is, a right angle).

Righttriangle.png

In the image above, you see that in triangle $\triangle ABC$, angle C has a measure of 90 degrees, so $\triangle ABC$ is a right triangle. The sides of a right triangle have different names: The longest side, opposite the right angle, is called the hypotenuse. In the diagram, the hypotenuse is labeled c. The other two sides are called the legs of the triangle.

Right triangles are very useful in geometry and for finding the areas of polygons. The most important relationship for right triangles is the Pythagorean Theorem. Besides, the field of trigonometry arises from the study of right triangles, and nearly all trigonometric identities can be deduced from them.

Special right triangles

Several well-known right triangles are easy to solve. These include the isosceles $45-45-90$, where the hypotenuse is equal to $\sqrt{2}$ times the length of either of the legs. The $30-60-90$ has sides in the ratio of $x:x\sqrt3:2x$.

If the lengths of the legs and hypotenuse are integral, then they form a Pythagorean triple.

Some well known Pythagorean triples include 3-4-5, 5-12-13, 7-24-25, and others.

Properties

The area of the triangle can be calculated using half of the product of the lengths of the legs. It can also be calculated using half of the product of the median to the hypotenuse and the hypotenuse. Using similarity, it is possible to derive several formulas relating the sides, the hypotenuse, and the median.

The circumradius is equal to half of the hypotenuse, or the median to the hypotenuse.

Problems

2007 AMC 12A Problem 10

See also