Integration Techniques and Common Mistakes

Calculating the area under a curve

Finding the derivative of a function

Determining the slope of a tangent

Solving linear equations

Standard results

Trigonometric identities

Matrix multiplication

Integration by parts

Multiply by the derivative of the exponent

Divide by the coefficient of x in the exponent

Add one to the power and divide

Subtract one from the power and multiply

When the function involves trigonometric identities

When the function is an exponential

When the function is a simple polynomial

When the numerator is the derivative of the denominator

Differentiate the entire expression

Factor the denominator into distinct linear factors

Check if the numerator is the derivative of the denominator

Combine all terms into a single fraction

The function must be a polynomial

The function must be a product of two terms

The function must be a trigonometric identity

The function must be an exponential

Whether 'u' is a constant and 'v' is a variable

Whether both 'u' and 'v' are polynomials

Whether 'u' can be differentiated and 'v' can be integrated

Whether 'u' can be integrated and 'v' can be differentiated

To simplify the integrand

To convert the integral into a definite form

To ensure the substitution is valid

To eliminate the need for integration

Choosing 'u' and 'v' such that the resulting integral is more complex

Using the wrong trigonometric identity

Forgetting to add the constant of integration

Not changing the limits of integration

A new function in terms of the original variable

A simplified expression in terms of the new variable

A constant value

An indefinite integral