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In this section, you will:
  • Use right triangles to evaluate trigonometric functions.
  • Find function values for 30° ( π 6 ) , 45° ( π 4 ) , and 60° ( π 3 ) .
  • Use cofunctions of complementary angles.
  • Use the definitions of trigonometric functions of any angle.
  • Use right triangle trigonometry to solve applied problems.

We have previously defined the sine and cosine of an angle in terms of the coordinates of a point on the unit circle intersected by the terminal side of the angle:

cos   t = x sin   t = y

In this section, we will see another way to define trigonometric functions using properties of right triangles .

Using right triangles to evaluate trigonometric functions

In earlier sections, we used a unit circle to define the trigonometric functions . In this section, we will extend those definitions so that we can apply them to right triangles. The value of the sine or cosine function of t is its value at t radians. First, we need to create our right triangle. [link] shows a point on a unit circle of radius 1. If we drop a vertical line segment from the point ( x , y ) to the x -axis, we have a right triangle whose vertical side has length y and whose horizontal side has length x . We can use this right triangle to redefine sine, cosine, and the other trigonometric functions as ratios of the sides of a right triangle.

Graph of quarter circle with radius of 1 and angle of t. Point of (x,y) is at intersection of terminal side of angle and edge of circle.

We know

cos   t = x 1 = x

Likewise, we know

sin   t = y 1 = y

These ratios still apply to the sides of a right triangle when no unit circle is involved and when the triangle is not in standard position and is not being graphed using ( x , y ) coordinates. To be able to use these ratios freely, we will give the sides more general names: Instead of x , we will call the side between the given angle and the right angle the adjacent side    to angle t . (Adjacent means “next to.”) Instead of y , we will call the side most distant from the given angle the opposite side    from angle t . And instead of 1 , we will call the side of a right triangle opposite the right angle the hypotenuse    . These sides are labeled in [link] .

A right triangle with hypotenuse, opposite, and adjacent sides labeled.
The sides of a right triangle in relation to angle t .

Understanding right triangle relationships

Given a right triangle with an acute angle of t ,

sin ( t ) = opposite hypotenuse cos ( t ) = adjacent hypotenuse tan ( t ) = opposite adjacent

A common mnemonic for remembering these relationships is SohCahToa, formed from the first letters of “ S ine is o pposite over h ypotenuse, C osine is a djacent over h ypotenuse, T angent is o pposite over a djacent.”

Given the side lengths of a right triangle and one of the acute angles, find the sine, cosine, and tangent of that angle.

  1. Find the sine as the ratio of the opposite side to the hypotenuse.
  2. Find the cosine as the ratio of the adjacent side to the hypotenuse.
  3. Find the tangent is the ratio of the opposite side to the adjacent side.

Evaluating a trigonometric function of a right triangle

Given the triangle shown in [link] , find the value of cos α .

A right triangle with sid lengths of 8, 15, and 17. Angle alpha also labeled.

The side adjacent to the angle is 15, and the hypotenuse of the triangle is 17, so:

cos ( α ) = adjacent hypotenuse = 15 17

Given the triangle shown in [link] , find the value of sin t .

A right triangle with sides of 7, 24, and 25. Also labeled is angle t.

7 25

Practice Key Terms 5

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Source:  OpenStax, Contemporary math applications. OpenStax CNX. Dec 15, 2014 Download for free at http://legacy.cnx.org/content/col11559/1.6
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