MAE 3230

MAE 3230

Course information provided by the Courses of Study 2014-2015.

Topics include physical properties of fluids, hydrostatics, conservation laws using control volume analysis and using differential analysis, Bernoulli's equation, potential flows, simple viscous flows (solved with Navier-Stokes equations), dimensional analysis, pipe flows, boundary layers. Introduction to compressible flow.

When Offered Fall. (Also offered in summer through Engineering Cooperative Program)

Permission Note Enrollment is limited to: ME majors and those officially registered for AE or ME minor.
Prerequisites/Corequisites Prerequisite: ENGRD 2020 and MAE 2030. Prerequisite or corequisite: ENGRD 2210 or permission of instructor.

Comments Also offered in summer through Engineering Cooperative Program.

Outcomes
  • Students will be able to use the fundamental principles and mathematical basis underlying the conservation equations.
  • Be able to identify the guiding principles in a given fluid problem, to formulate the governing equations, and so to solve basic engineering problems.
  • Recognize the difference between an ideal fluid and a viscous fluid, and to understand the limitations of the solutions for real practical fluid flows. Understand the difference between a simple solution and a real practical problem.
  • Understand where their analysis might involve approximations and empirical approaches; for example, pipe flows and boundary layer flows.
  • Have improved their ability to formulate an ordered approach to problem solving, using words of explanation in derivations, and algebra before substituting numerical values that allows neat analytical solutions and dimensional analysis.

View Enrollment Information

Syllabi: none
  •   Regular Academic Session.  Choose one lecture and one discussion.

  • 4 Credits Graded

  • 11580 MAE 3230   LEC 001

  • Instruction Mode:
    Prerequisite: ENGRD 2020 and MAE 2030, Dynamics, and Pre or Coregistration of ENGRD 2210 or permission of Instructor. Enrollment limited to: M.E. majors and those officially taking the M.E. or Aerospace minor.

  • 11581 MAE 3230   DIS 201

  • Instruction Mode: