Key Equations
| Cofunction Identities | [latex]\begin{array}{l}\begin{array}{l}\\ \cos t=\sin \left(\frac{\pi }{2}-t\right)\end{array}\hfill \\ \sin t=\cos \left(\frac{\pi }{2}-t\right)\hfill \\ \tan t=\cot \left(\frac{\pi }{2}-t\right)\hfill \\ \cot t=\tan \left(\frac{\pi }{2}-t\right)\hfill \\ \sec t=\csc \left(\frac{\pi }{2}-t\right)\hfill \\ \csc t=\sec \left(\frac{\pi }{2}-t\right)\hfill \end{array}[/latex] |
Key Concepts
- We can define trigonometric functions as ratios of the side lengths of a right triangle.
- The same side lengths can be used to evaluate the trigonometric functions of either acute angle in a right triangle.
- We can evaluate the trigonometric functions of special angles, knowing the side lengths of the triangles in which they occur.
- Any two complementary angles could be the two acute angles of a right triangle.
- If two angles are complementary, the cofunction identities state that the sine of one equals the cosine of the other and vice versa.
- We can use trigonometric functions of an angle to find unknown side lengths.
- Select the trigonometric function representing the ratio of the unknown side to the known side.
- Right-triangle trigonometry permits the measurement of inaccessible heights and distances.
- The unknown height or distance can be found by creating a right triangle in which the unknown height or distance is one of the sides, and another side and angle are known.
Glossary
- adjacent side
- in a right triangle, the side between a given angle and the right angle
- angle of depression
- the angle between the horizontal and the line from the object to the observer’s eye, assuming the object is positioned lower than the observer
- angle of elevation
- the angle between the horizontal and the line from the object to the observer’s eye, assuming the object is positioned higher than the observer
- opposite side
- in a right triangle, the side most distant from a given angle
- hypotenuse
- the side of a right triangle opposite the right angle