UCSBPlat . ME 225G

Drawing from classical journal articles from the scientific literature, thiis graduate course will review selected mathematical models used to predictthe dynamics of such geophysical flows, introduce available analytical solutions that provide useful insight in simplified cases, and numerical approaches to solve the corresponding partial differential equations and get useful insight for realistic scenarios. To best enjoy this course, a good background and enthusiasm for fluid mechanics, applied mathematics, and scientific computing is required.

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Prerequisites: Consent of instructor.

Units

Letter

Grading

1, 2, 3

Passtime

None

Level Limit

Engineering

College

ME 225EH

7 / 7 Full

Special Topics in Soft Robotics

Hawkes E W

M W

14:00 PM - 15:15 PM

100.0% A

ME 225FA

6 / 7 Enrolled

Special Topics: Failure Analysis

Samantha Daly 3.9

M W

09:30 AM - 10:45 AM

ME 225ED

10 / 9 Full

Special Topics in ME: Bio-Inspired Design in Fluid Mechanics

Emilie Dressaire 5.0

T R

11:00 AM - 12:15 PM

100.0% A

ME 225RM

8 / 10 Enrolled

Special Topics in Mechanical Engineering

Robert McMeeking 3.5

M W

11:00 AM - 12:15 PM

ME 225EY

3 / 3 Full

Special Topics in Biological Computing

Enoch Yeung 4.5

14:00 PM - 15:15 PM

96.3% A

ME 225NN

16 / 30 Enrolled

Modeling and Optimization of Neural Networks

Francesco Bullo 4.0

M W

11:00 AM - 12:15 PM

100.0% A

Special Topics in Mechanical Engineering: Geophysical Fluid Dynamics . ME 225G

Prerequisites: Consent of instructor.

Instructors

T B A

Lecture

Enrollment Trends

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