College and University Course Search Results

Course Criteria

Add courses to your favorites to save, share, and find your best transfer school.

ME 488: Design of Experiments

2.00 Credits

Portland State University

Presents the methods of planning the data collection scheme in industrial experimentation. Topics to be covered are methods of statistical inference, randomization, blocking, empirical and mechanistic model building using factorial, fractional factorial designs, and least squares methods.

ShareME 488 - Design of Experiments

Favorite
ME 491: Design Process

2.00 Credits

Portland State University

Design methodologies will be discussed as a framework for solving broadly defined technology problems. Interdisciplinary organizational principles will be presented as tools in the design process and as a foundation for the subsequent project course. Lectures, weekly and term case studies.

ShareME 491 - Design Process

Favorite
ME 507: Seminar

1.00 Credits

Portland State University

See department for course description.

ShareME 507 - Seminar

Favorite
ME 521: Heating, Ventilating, and Air Conditioning Design Fundamentals

4.00 Credits

Portland State University

Fundamental principles and methods of controlling living space environments; design of heating, ventilating, air conditioning, and refrigeration systems for residential, commercial, and industrial purposes. Topics include: moist air properties (psychometrics), air conditioning processes, indoor air quality (comfort and health), heat transmission in building structures, solar radiation, space heating and cooling load analysis, energy calculations, and air conditioning systems and equipment.

ShareME 521 - Heating, Ventilating, and Air Conditioning Design Fundamentals

Favorite
ME 541: Advanced Fluid Mechanics

4.00 Credits

Portland State University

Partial differential equations governing the conservation of mass, momentum, and energy of Newtonian fluids are derived. Dimensional analysis is used to simplify the governing equations and in particular justify the assumption of incompressible flow. Exact solution of the Navier-Stokes equations are presented. Boundary layer approximations to the governing equations are derived, and both exact and integral solutions are obtained.

ShareME 541 - Advanced Fluid Mechanics

Favorite
ME 550: Solid Modeling

4.00 Credits

Portland State University

Emphasis is on solid model construction methods using state-of-the-art solid modeling software. Topics include use of parametric geometry, construction and modification of solids, building and animating assemblies, working in groups, building sheet metal parts, drafting, and the presentation of the fundamentals of solids modeling including representation and manipulation of wireframes, surfaces, and solids. Lecture and laboratory.

ShareME 550 - Solid Modeling

Favorite
ME 550L: Solid Modeling Lab

0.00 Credits

Portland State University

Emphasis is on solid model construction methods using state-of-the-art solid modeling software. Topics include use of parametric geometry, construction and modification of solids, building and animating assemblies, working in groups, building sheet metal parts, drafting, and the presentation of the fundamentals of solids modeling including representation and manipulation of wireframes, surfaces, and solids. Lecture and laboratory.

ShareME 550L - Solid Modeling Lab

Favorite
ME 551: Engineering Analysis

4.00 Credits

Portland State University

Application of mathematical techniques to the solution of controls, dynamics, mechanical, and transport phenomena problems. Emphasis given to modeling, physical interpretation, and normalization. Topics include modeling, linear systems, partial differential equations, and complex variables.

ShareME 551 - Engineering Analysis

Favorite
ME 552: Control Engineering I

4.00 Credits

Portland State University

Introductory controls class offered to upper-division mechanical engineering undergraduates and graduate students. Includes classical theory as applied to linear systems with topics: mathematical modeling of control systems; transfer functions and block diagrams; transient response; stability; root-locus method; frequency response method; and control system design techniques. Computer analysis and solution techniques will be utilized.

ShareME 552 - Control Engineering I

Favorite
ME 555: Finite Element Modeling and Analysis

4.00 Credits

Portland State University

The finite element method as related to the solution of mechanical design problems including thermal stress analysis. Various element formulations will be discussed, and existing commercial codes will be used to demonstrate modeling and analysis techniques.

ShareME 555 - Finite Element Modeling and Analysis

Favorite

Alabama
Alaska
American Samoa
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of Columbia
Federated States of Micronesia
Florida
Georgia
Guam
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Marshall Islands
Maryland
Massachusetts
Michigan
Minnesota
Minor Outlying Islands
Mississippi
Missouri
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Northern Mariana Islands
Ohio
Oklahoma
Oregon
Palau
Pennsylvania
Puerto Rico
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virgin Islands
Virginia
Washington
West Virginia
Wisconsin
Wyoming
American Samoa
Guam
Northern Marianas Islands
Puerto Rico
Virgin Islands