We describe a method for deepening a student's understanding of basic physics
by asking the student to express physical ideas in a functional programming
language. The method is implemented in a second-year course in computational
physics at Lebanon Valley College. We argue that the structure of Newtonian
mechanics is clarified by its expression in a language (Haskell) that supports
higher-order functions, types, and type classes. In electromagnetic theory, the
type signatures of functions that calculate electric and magnetic fields
clearly express the functional dependency on the charge and current
distributions that produce the fields. Many of the ideas in basic physics are
well-captured by a type or a function.Comment: In Proceedings TFPIE 2014, arXiv:1412.473