Frequently Asked Questions about Stochastic Calculus, fall term, 2002 course home page: http://www.math.nyu.edu/faculty/goodman/teaching/StochCalc/index.html What is Stochastic Calculus? Ways to calculate things about random processes. This course starts with simple discrete models and moves to continuous models where the tools are stochastic integrals and stochastic differential equations. For whom is the course intended? Primarily students in the Courant Institute program in Financial Mathematics. All graduate students at the Courant Institute and elsewhere within NYU may enroll. However, this is a serious math class with serious prerequisites (see the web page). Is the class only for people interested in applications to finance? No. The tools of Stochastic Calculus apply to many problems outside finance or economics. The current interest in Stochastic Calculus is largely because of its appications in finance, which will play a major role in the class. Will the class be rigorous inthe mathematical sense? Not completely. We will avoid technical issues such as completeness and separability of the space of continuous functions and countable additivity of the Borel sets. We will discuss major topics such as progressive measurability as a way to formulate issues of decision making with incomplete information. If I am not currently a Courant Institute graduate student, how do I enroll? That depends on who you are. Contact Gabrielle Maloney (maloney@cims.nyu.edu) as soon as possible if you are uncertain. Non NYU students will need to enroll in NYU in some way, possibly as a "nondegree" graduate student. What is the text? We will use the bok by Salih Neftci, "An Introduction to the Mathematics of Financial Derivatives", second edition. That book covers some of the course material. There will be lecture noted posted on other parts, particularly the earlier material on discrete models. What are the prerequisites? A solid course in calculus based probability, together with multivariate calculus and linear algebra. You should be comfortable working with probability densities, integrating to get means and variances, computing conditional probabilities, etc. You should be able to do this with "multivariate" random variables given by a joint probability density in more than one dimension, computing marginal and conditional probability densities, means and conditional means, covariances, etc. You should understand the law of large numbers and the central limit theorem and be able to apply them. Independence of random variables and Bayes' rule play a big role. What if my background is rusty? If your probability needs oiling, make sure to do this before the first class. A good way to do this is through books in the Schaum's outline series. There is a Schaum's Outline of Probability, a Schaum's outline of Linear Algebra, and an outline on multivariate calculus (the outline on vector calculus is less relevent).