What is an example of an application of a higher order derivative ($y^{(n)}$, $n\geq 4$)? Can you suggest some useful things we can do with higher order derivatives? A fellow student in my Calculus and Analytic Geometry I class asked what some applications of higher order (e.g., ( $y^{(n)}$, $n\geq 4$) ) derivatives might be. Our instructor (masters level faculty) did not know of one. It's got me curious... This question doesn't require a rigorous example, just illustrative concept(s). Thanks.

If $y(t)$ denotes the position at time $t$, then:

* The first derivative, $y'(t)$, denotes velocity at time $t$.
* The second derivative, $y''(t)$, denotes acceleration at time $t$.
* The third derivative, $y'''(t)$, denotes the jerk or jolt at time $t$, an important quantity in engineering and motion control
* The fourth derivative, $y^{(4)}(t)$, denotes the jounce at time $t$; the jounce is also used in studying motion, and in studying the cosmological equation of state.



Fifth and sixth derivatives of position are also important in some applications/theoretical physics studies, but they have no universally accepted name.

You can also see this article from the Proceedings of the National Academy of Sciences discussing the use of the fifth derivative and curve fitting to do DNA analysis and population matching.

And higher derivatives are also used for approximating functions using Taylor polynomials, which can be useful when a certain amount of precision is required.