If a function \(f\) is continuous on the closed interval \([a,b]\text{,}\) then the area function
\begin{equation*}
A(x) = \int_a^x f(t)\,dt \,\,\,\,\, \mathrm{for}\,\,\, a\leq x\leq b,
\end{equation*}
is continuous on \([a,b]\) and differentiable on \((a,b)\text{.}\) The area function satisfies \(A'(x) = f(x)\text{.}\) Equivalently,
\begin{equation*}
A'(x) = \frac{d}{dx}\int_a^x f(t)\,dt = f(x),
\end{equation*}
which means that the area function of \(f\) is an antiderivative of f on \([a,b]\text{.}\)