MAE 101B - Advanced Fluid Mechanics

Homework

• Homework will be assigned each week and collected on specified due date. Late homework will not be accepted under any circumstances.
• Homework must follow specific requirements. See Homework Assignment Requirements.
• Homework re-grade requests: submit a written statement detailing the justification for the re-grade to Prof. Be sure to indicate on statement: your name, date, email address. Re-grades will not be accepted beyond 1 week after return of homework.

TA Discussion Sessions

There will be weekly discussion sessions to discuss student questions and solve sample problems.


• Mon 10:00-10:50am, WLH 2205
  
• Wed 11:00-11:50am, WLH 2113
  
  

Grading

• Homework (lowest dropped) - 15%
• Midterm Exams (2) - 40%
• Final Exam - 45%

Academic/Professional Integrity

All students are expected to know their responsibilities and uphold the standards of academic honesty and engineering professionalism. Students are encouraged to discuss course topics and homework with each other to assist in learning. However each student must do and submit their own work on all homework assignments, quizzes, and exams. Submitted work that is copied or taken from an unauthorized source (e.g., another student's work) or peformed using unauthorized resources (e.g., calculator programs or notes during exams) is considered cheating. Academic misconduct will have serious penalties and be reported to university administration. Refer to UCSD website for details: UCSD Policy on Integrity of Scholarship.

As Engineering students, it is expected that you operate in a professional manner; refer to: National Society of Professional Engineers (NSPE) Code of Ethics for Engineers.

Tentative Class Schedule - Spring 2008

Week	Topic	Text
4/1	Internal Incompressible Viscous Flows	Ch 6
	fully developed laminar flow, turbulent flow
4/8	friction factor, Moody chart, energy equation	" "
	major and minor losses, flow meters
4/15	Potential (Inviscid Irrotational) Flow	Ch 8
	elementary plane flows, superposition
4/22	External Incompressible Viscous Flows	Ch 7
	boundary layer flow
	MIDTERM I
4/29	flat plate boundary layer, Blasius solution	" "
	integral analysis
5/6	boundary layer with pressure gradient	" "
	flow about immersed bodies - drag and lift
5/13	Compressible Flow	Ch 9
	review of thermodynamics, speed of sound, isentropic stagnation properties
5/20	Steady one-dimensional compressible flow	" "
	isentropic flow with area change
	MIDTERM II
5/27	normal shock wave	" "
	converging and diverging nozzles
6/3	compressible flow with friction: Fanno flow	" "
	frictionless flow with heat transfer: Rayleigh flow
	oblique shock wave
6/9	FINAL EXAM (11:30am - 2:30pm)