Trigonometric substitution is a technique used in calculus to simplify integrals involving square roots or expressions with a quadratic term. It involves substituting trigonometric functions for the variables in the integral to make it easier to solve.
Trigonometric substitution is most commonly used when the integrand (the expression inside the integral) involves a square root or a quadratic term. It can also be used to simplify integrals involving rational functions.
The trigonometric function to substitute is chosen based on the form of the integrand. For example, if the integrand contains a2 − x2, where a is a constant, then the substitution x = a sin θ or x = a cos θ can be used.
The most commonly used trigonometric identities in trigonometric substitution are the Pythagorean identities, which include sin2 θ + cos2 θ = 1, tan2 θ + 1 = sec2 θ, and cot2 θ + 1 = csc2 θ. Other common identities include the double angle formulas and the half angle formulas.
Some tips for integrating with trigonometric substitution include choosing the appropriate trigonometric function to substitute, simplifying the integrand using trigonometric identities, and carefully applying the chain rule when differentiating trigonometric functions. It is also important to check the solution using the original substitution to ensure the integral has been solved correctly.