Math 50C: Multivariable Calculus
Catalogue Description
The third in the series of three calculus courses. Multivariable Calculus applies the techniques and theory of differentiation and integration to a thorough study of vectors in two and three dimensions, vector-valued functions, calculus of functions of more than one variable, partial derivatives, multiple integration, Green's Theorem, Stokes' Theorem, Divergence Theorem; includes motion in two and three dimensions, curves and surfaces.
Special notes or advisories: Extensive computer visualization is an integral component of this course.
Prerequisites
Math 50B (or equivalent) with a grade of "C" or better
Course Outline
The official course outline for Multivariable Calculus including content, objectives, and student learning outcomes, can be viewed online via the following link:
Instructor Syllabus: Professor David Arnold
The Instructor's Syllabus details how the instructor intends to fullfill the outcomes and objectives detailed in the Course Outline. Classroom policies, textbook information, policies on grading, etc., can all be found in Intructor's Syllabus at the following link:
Assignments: Professor David Arnold
Assignments for the course can be found at the following link. Be sure to visit often, as the content of the assignment page will be upgraded daily throughout the duration of the course.
Examinations: Professor David Arnold
Examinations for the course will be posted on this page. Visit frequently as this page will be constantly updated throughout the duration of the course.
Activities: Professor David Arnold
Mathematica activities for this course are available at the following line:
Math 50C Mathematica Activities
Matlab activities for this course are available at the following link:
Python activities for this course are available at the following link:
Geometer's Sketchpad activities are available at the following link:
Geogebra activities are available at the following link:
GradeKeeper
You can view your grades online here: