Definition:Fourier Series/Formulation 2

Definition
Let $a, b \in \R$ be real numbers.

Let $f: \R \to \R$ be a function such that $\ds \int_a^b \map f x \rd x$ converges absolutely.

Let:

Then:


 * $\ds \frac {A_0} 2 + \sum_{m \mathop = 1}^\infty \paren {A_m \cos \frac {2 m \pi \paren {x - a} } {b - a} + B_m \sin \frac {2 m \pi \paren {x - a} } {b - a} }$

is the Fourier Series for $f$.

Also defined as
The form given here is more general than that usually given.

The usual form is one of the cases where $a = 0$ and $b = 2 \lambda$, or $a = -\lambda$ and $b = \lambda$, thus giving a range of integration of either $\openint 0 {2 \lambda}$ or $\openint {-\lambda} \lambda$.

The actual range may often be chosen for convenience of analysis.

Also see

 * Equivalence of Definitions of General Fourier Series


 * Derivation of Fourier Series over General Range, which provides the justification for this definition