Course Web Page:http://courses.eas.ualberta.ca/eas471/index.html
Instructor: Dr. J.D. Wilson
Office: CCIS 3-277
Phone: 780 492 0353
E-mail: jaydee.uu@ualberta.ca
Instructor's Office Hours: Mon, Wed, Fri 11-12
Lecture Room & Time: ESB 1-39: Tues, Thurs, 1105-1220
Labs: Thursday, 1400-1650 in ESB 1-39
Course Description: (3-0-3). Dynamics and physics of general circulation models. Numerical Weather Prediction models, ocean models, limited area models. Finite difference methods; spectral methods, and numerical stability. Prerequisite(s): EAS 371, 373 and MATH 215.
Learning Objectives:
Note: no textbook will be followed, however PDFs will be posted to support material covered.
- Attain proficiency in scientific programming and graphing (MATLAB is the supported environment, but students wishing to do so may use their own preferred language)
- Lectures cover theory relating to:
- Vocabulary/terminology of numerical fluid mechanics
- Mathematical character of the conservation equations of fluid mechanics
- Discretization and numerical solution
- Schematic overview of atmos./ocean models (dynamics and physics)
- The computing projects will solve prototypical fluid flow/diffusion problems
Grade Evaluation:
- Three scored computing assignments : 15% + 20% + 20%
- Mid term exam (1.25 hour, closed book): 15%
- Final exam (2.5 hour, closed book): 30%
A final letter grade will be assigned on the basis of your total (cumulative) score on term and exam work. Where possible, natural breaks in the mark distribution will be used in assigning grades, but no pre-determined distribution of grades will be imposed on the class. Your grade will reflect a combination of your absolute achievement and relative standing in the class.
A deferred exam, if granted, would be held at 1100 on Friday 13 May, 2016.
Mandatory Statements
Link to Earth & Atmospheric Sciences home page.
Link to J.D. Wilson's home page.
Last Modified: 7 Jan., 2016
