This course explores real-valued sequences and series, including power and Taylor series. Topics include convergence and divergence tests and applications. These topics will be explored graphically, numerically, and symbolically. This course emphasizes abstraction, problem-solving, reasoning, communication, connections with other disciplines, and the appropriate use of technology.
Grading Options:
Optional; see degree guide or catalog for degree requirements
Process a complete drop (100% refund, no W recorded)
January 10:
Drop this course (100% refund, no W recorded; after this date, W's are recorded)
January 10:
Process a complete drop (90% refund, no W recorded; after this date, W's are recorded)
January 11:
Process a complete withdrawal (90% refund, W recorded)
January 11:
Withdraw from this course (100% refund, W recorded)
January 12:
Add this course
January 12:
Last day to change to or from audit
January 18:
Process a complete withdrawal (75% refund, W recorded)
January 18:
Withdraw from this course (75% refund, W recorded)
January 25:
Process a complete withdrawal (50% refund, W recorded)
January 25:
Withdraw from this course (50% refund, W recorded)
February 1:
Process a complete withdrawal (25% refund, W recorded)
February 1:
Withdraw from this course (25% refund, W recorded)
February 22:
Withdraw from this course (0% refund, W recorded)
For information on last day to Change Grade Option or Change Variable credit: Dates & Deadlines calendar
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, connect with an Academic Advisor. If you are attempting to completely withdraw after business hours, and have difficulty, please contact the an Academic Advisor the next business day.
Expanded Course Description
The course incorporates such concepts of Calculus as infinite sequences and series, improper integrals, and power series. Prerequisites: MATH 251Z and MATH 252Z. A good understanding of differentiation and integration is assumed.
Prereqs/Comments: