Additional identities can be derived from the sum and difference identities for cosine and sine.

Example 2: Verify that cos (180° − x) = − cos x

Example 3: Verify that cos (180° + x) = − cos x

Example 4: Verify that cos (360° − x) = cos x

The preceding three examples verify three formulas known as the reduction formulas for cosine. These reduction formulas are useful in rewriting cosines of angles that are larger than 90° as functions of acute angles.

Example 5: Verify that sin (180° − x) = sin x

Example 6: Verify that sin(180° + x) = − sin x

Example 7: Verify that sin (360° − x) = − sin x

The preceding three examples verify three formulas known as the reduction formulas for sine. These reduction formulas are useful in rewriting sines of angles that are larger than 90° as functions of acute angles.

To recap, the following are the reduction formulas (identities) for sine and cosine. They are valid for both degree and radian measure.

Example 8: Verify that sin 2 x = 2 sin x cos x.

Example 9: Write cosβcos(α − β) − sinβsin(α − β) as a function of one variable.

Example 10: Write cos 303° in the form sinβ, where 0 <β< 90°.

Example 11: Write sin 234° in the form cos 0 <β < 90°.

Example 12: Find sin (α + β) if sin (α + β) if sin α = and α and β are fourth quadrant angles.

First find cos α and sin β. The sine is negative and the cosine is positive in the fourth quadrant.