Sum and Difference Identities

Introduction

Sum and difference identities are essential tools in trigonometry that allow us to express the sine, cosine, and tangent of sums or differences of angles in terms of the sines and cosines of the individual angles. These identities are foundational for simplifying expressions, solving equations, and proving other trigonometric identities.

Cosine of a Sum or Difference

• Cosine of a Sum: The formula for the cosine of the sum of two angles is:

• Cosine of a Difference: The formula for the cosine of the difference of two angles is:

• Sign Switch: Note that the sign in the formula switches: a plus in the argument becomes a minus in the formula, and vice versa.

• Example: To find , write and use the sum formula:

Sine of a Sum or Difference

• Sine of a Sum: The formula for the sine of the sum of two angles is:

• Sine of a Difference: The formula for the sine of the difference of two angles is:

• Sign Consistency: The sign in the formula matches the sign in the argument.

• Example: To write an expression such as as a sum, use and apply the sum formula.

Tangent of a Sum or Difference

• Tangent of a Sum:

• Tangent of a Difference:

• Example: To find , write and use the sum formula:

Double-Angle Identities

Introduction

Double-angle identities are special cases of the sum identities where the two angles are equal. They are useful for simplifying expressions and solving trigonometric equations involving double angles.

• Sine Double-Angle:

• Cosine Double-Angle: Alternate forms:

• Tangent Double-Angle:

• Example: Prove the identity by using the sum formula for sine.

Solving Trigonometric Equations Using Identities

Introduction

Trigonometric equations can often be solved more easily by applying sum, difference, or double-angle identities to rewrite the equation in a simpler form. Solutions are typically found within a specified interval, such as .

• Example: Solve in the interval . Set , so .

• Graphical Solution: The graph of the trigonometric function can help visualize the number and location of solutions within

Additional info: The graphical approach confirms the number of solutions and their approximate locations, which can then be verified algebraically.