In standard calculus it is a well known fact that left-point and mid-point [Riemann sums][1] do become equal in the limit. When it comes to stochastic integration this is no longer the case.<br> Taking the left-hand sums renders the [Ito integral][2] with an extra term, taking the midpoints renders the [Stratonovich integral][3] (see for example: [Higham][4], p 531).<br> While the Ito integral is the usual choice in applied math, the Stratonovich integral is frequently used in physics. Unlike the Itō calculus, Stratonovich integrals are defined such that the chain rule of ordinary calculus holds.

**My question**<br>
1.) What is/are the deeper reason(s) that we have a convergence in ordinary calculus but have a divergence here?<br>
2.) Are there examples in non-stochastic (or ordinary) calculus where we have a divergence between these limiting cases? If yes, how do they look like (and why)? Could you give a toy example of such a function?


  [1]: http://en.wikipedia.org/wiki/Riemann_sum
  [2]: http://en.wikipedia.org/wiki/Ito_calculus
  [3]: http://en.wikipedia.org/wiki/Stratonovich_integral
  [4]: http://www.caam.rice.edu/~cox/stoch/dhigham.pdf