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'Numerical Navier-Stokes' - PHYS 396 Undergraduate Research Project Application Form

INSTRUCTIONS - PROFESSORS: Please print and review this form. Complete or correct the sections, as applicable, from "Supervisor's Name" to "Ethics, safety, and training". Please sign and date near the bottom ("Supervisor's signature").

INSTRUCTIONS - STUDENTS: You may receive this form by email, or you may download it after it has been posted here. Either way, print and review this form. Complete or correct the sections, from "Student's Name" to "Student's Level", and sign ("Student signature"). Ask your supervisor to sign her/his section near the bottom. Take it to the department* corresponding to the course number in Section A; this may or may not be your own department. (* EXCEPTIONS: For NSCI 396 and COGS 396, please bring it to the Interdisciplinary Programs Adviser in Dawson Hall.) Do not register for a '396' course on Minerva until you receive departmental permission. Have a discussion with your supervisor about time/work expectations, keeping in mind that this is a 3-credit course (roughly, 10 hours per week for 12 weeks). Remember that a '396' course is an elective.

INSTRUCTIONS - DEPARTMENTS: After the unit chair/director/designate approves (or not) this project, please notify student. If approved, please give student permission to register on Minerva, and send a copy of this form (with signatures) to the Office for Undergraduate Research in Science (either fax, or internal mail to Dawson Hall 408-A, or PDF scan + email).

QUESTIONS OR FEEDBACK? Contact the Office for Undergraduate Research in Science.


Supervisor's Name: Guillaume Gervais

Supervisor's Email: gervais [at] physics [dot] mcgill [dot] ca

Supervisor's Phone:

Supervisor's Website:

Supervisor's department: Physics

Course number: PHYS 396 (Physics)

Term: Summer 2013

Project start date: Monday, July 8, 2013

Project end date: Friday, August 30, 2013

Project title: Numerical Navier-Stokes

Project description (50-100 words suggested): Computational fluid dynamics simulations for the nanopore sonic flow. The experimental results for high speed flow should be compared to the ones obtained via the computer simulation of the experimental set-up. The power spectrum computation may follow if the Mach speed barrier is broken. Hence, the main goal of this experiment will be achieved.

Prerequisite: 1 term completed at McGill + CGPA of 3.0 or higher; or permission of instructor.

Grading scheme (The final report must be worth at least 50% of final grade): Final grade shall be based on laboratory performance as evaluated by the research supervisor (50%) and the final written research report graded by the supervisor and the course coordinator or the coordinator's delegate (50%)

Project status: This project is taken. The professor has no more '396' projects this term.

How students can apply: N/A; this project is filled.

Ethics, safety, and training: Supervisors are responsible for the ethics and safety compliance of undergraduate students. This project involves NEITHER animal subjects, nor human subjects, nor biohazardous substances, nor radioactive materials, nor handling chemicals, nor using lasers.

Student's Name:


Student's McGill ID:


Student's McGill Email:


Student's Phone:


Student's Program:


Student's Level (U0 / U1 / U2 / U3):


Student's signature - I certify that this course is with a different supervisor and on a different topic than any previous '396' course I have taken. I have not applied for another '396' course in this term:


Supervisor's signature - I give my permission for the student identified above to register for this project under my supervision:


Date:


Unit chair/director/designate's name:


Unit chair/director/designate's signature - I certify that this project conforms to departmental requirements for 396 courses:


Date: