
The student is able to (especially w.r.t. functions of two or three variables):
 work with partial derivatives and applications.
 define and evaluate double and triple integrals over bounded regions


This course introduces the mathematics needed for disciplines such as classical mechanics, thermodynamics, fluid dynamics, and probability theory.
This course directly follows up on the courses Calculus 1A and 1B. The aim is to introduce differential calculus for functions of more than one variable. Applications of this theory include the chain rule, linearizations, differentials, and extreme values (both with and without constraints).
In the spirit of univariate functions, integrals of multivariate functions will be defined as limits of Riemann sums. In this case, the domain of integration becomes, for example, a rectangle, a disc, or a spherical region. This leads to double and triple integrals which can be used to compute areas, volumes, probabilities, charges, forces, masses, and moments of inertia.
Sometimes integrals of multivariate functions are easier to compute when the usual Cartesian coordinates are replaced by polar, cylindrical, or spherical coordinates. Determinants, which will also be a topic in the course Linear Algebra, play an important role in these coordinate transformations.
The followup course Vector Calculus (BMT,CE,CSE,ME) will cover line and surface integrals. By parameterising the domain of integration these integrals can be reduced to single or double integrals. The theorems of Gauss, Green, and Stokes provide a deep connection between all these integrals.





Bachelor Mechanical Engineering 
  Required materialsBookThomas’ Calculus (12th edition)
ISBN 9781783991587 

 Recommended materialsInstructional modesLecture
 Self study with assistance
 Tutorial
 WorkshopPresence duty   Yes 
RemarkCase 
 TestsCalculus 2
 Participation


 