Multivariable Calculus
Course Description
Summary
Multivariable calculus is one of the core parts of an undergraduate mathematics curriculum. Introductory calculus mostly concentrates on situations where there is one input and one output variable; multivariable extends differentiation, integration, and differential equations to cases where there are multiple input and output variables. In this way, multivariable calculus combines calculus and linear algebra; the subject can also be called vector and matrix calculus. In addition to its fundamental role in mathematics itself (particularly in the study of geometry of surfaces and solids in multiple dimensions), the subject is essential to all sorts of applications, notably in economics, biology, physics (particularly electromagnetism) and computer science (particularly machine learning). This course covers the standard topics in multivariable calculus, including derivatives as linear transformations, Lagrange multipliers, and vector derivatives div, grad, and curl.
Learning Outcomes
- Students will learn to employ the fundamental concepts of multivariable calculus
- Students will learn to identify applied problems to which multivariable calculus applies, and to formulate the problems appropriately
- Students will generally develop greater sophistication and integration of topics within mathematics (particularly calculus and linear algebra)
Prerequisites
MAT 2482 Linear Algebra and MAT 4288 Calculus: A Classical Approach. Contact the instructor for exceptions.
Please contact the faculty member : amcintyre@bennington.edu