Mathematics (MATH) |
202 Fenton, 541-346-4705
College of Arts & Sciences
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- Dept or Instructor approval required; check course details for effective dates. When approved, use the Add/Drop menu to add the course by entering the CRN directly
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Academic Deadlines
Deadline |
Last day to: |
January 2: |
Process a complete drop (100% refund, no W recorded) |
January 8: |
Drop this course (100% refund, no W recorded; after this date, W's are recorded) |
January 8: |
Process a complete drop (90% refund, no W recorded; after this date, W's are recorded) |
January 9: |
Process a complete withdrawal (90% refund, W recorded) |
January 9: |
Withdraw from this course (100% refund, W recorded) |
January 10: |
Add this course |
January 10: |
Last day to change to or from audit |
January 16: |
Process a complete withdrawal (75% refund, W recorded) |
January 16: |
Withdraw from this course (75% refund, W recorded) |
January 23: |
Process a complete withdrawal (50% refund, W recorded) |
January 23: |
Withdraw from this course (50% refund, W recorded) |
January 30: |
Process a complete withdrawal (25% refund, W recorded) |
January 30: |
Withdraw from this course (25% refund, W recorded) |
February 20: |
Withdraw from this course (0% refund, W recorded) |
March 13: |
Change grading option for this course |
| You can't drop your last class using the "Add/Drop" menu in DuckWeb. Go to the “Completely Withdraw from Term/University” link to begin the complete withdrawal process. If you need assistance with a complete drop or a complete withdrawal, please contact the Office of Academic Advising, 101 Oregon Hall, 541-346-3211 (8 a.m. to 5 p.m., Monday through Friday). If you are attempting to completely withdraw after business hours, and have difficulty, please contact the Office of Academic Advising the next business day. |
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Expanded Course Description
This is the second term of a calculus sequence for students in business and the social sciences. Students will learn techniques and applications of integral calculus, derivatives and integrals of functions of several variables, the method of Lagrange multipliers, systems of linear equations, matrix algebra, systems of linear inequalities, and an introduction to linear programming. This course emphasizes modeling and applications to business and the social sciences. Applications include averages and moving averages, continuous income streams, present and future values, optimization and constrained optimization of functions of several variables, and systems of linear equations and inequalities in business and social sciences.
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