Verify that each equation is an identity.
sin³ θ + cos³ θ = (cos θ + sin θ) (1 - cos θ sin θ)

Trigonometric identities are equations that hold true for all values of the variable within a certain domain. Common identities include the Pythagorean identities, reciprocal identities, and angle sum/difference identities. Understanding these identities is crucial for verifying equations in trigonometry, as they provide the foundational relationships between sine, cosine, and other trigonometric functions.

Factoring is a mathematical process used to express an equation as a product of its factors. In the context of trigonometric identities, recognizing patterns such as the sum of cubes can simplify complex expressions. For example, the identity sin³ θ + cos³ θ can be factored using the formula a³ + b³ = (a + b)(a² - ab + b²), which is essential for verifying the given equation.

Verifying trigonometric identities involves manipulating one side of the equation to show that it is equivalent to the other side. This process may include using algebraic techniques, applying known identities, and simplifying expressions. The goal is to demonstrate that both sides of the equation yield the same result for all permissible values of the variable, confirming the identity's validity.