|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
Lecture course. Course material includes an instroduction to Computer-Aided Mechanical Design (CAMD) tools (hardware/software) and their applications to mechanical systems design. Pre- or Co-requisite: MECH 3300. (3-0) Y
-
3.00 Credits
Lecture course. This course focuses on availability and reversible work, machine, and cycle processes; real gas behavior; non-reactive gas mixtures; reactive mixtures; and thermodynamics of compressible fluid flow. Prerequisite: MECH 3300. (3-0) Y
-
3.00 Credits
Lecture course. Course material includes an introduction to the concepts and applications of fluid mechanics and dimensional analysis with an emphasis on fluid behavior, internal and external flows, analysis of engineering applications of incompressible pipe systems, and external aerodynamics, ideal fluid flow including potential flow theory, and computer solutions in ideal fluid flow. Prerequisites: MECH 2310 and MECH 3300. (3-0) Y
-
3.00 Credits
Lecture course. This course focuses on the treatment of conductive, convective, and radiative energy transfer using control volume and differential analysis and prediction of transport properties. Prerequisite: MECH 3315. (3-0) Y
-
3.00 Credits
Axioms of probability, conditional probability, Bayes theorem, random variables, probability density function (pdf), cumulative density function, expected value, functions of random variable, joint, conditional and marginal pdf's for two random variables, moments, introduction to random processes, density estimation, regression analysis and hypothesis testing. Students cannot get credit for both CS/SE 3341 and CE/EE/TE 3341. Prerequisite: MATH 2419. Recommended co-requisite: MATH 2420. (Same as CE/EE/TE 3341) (3-0) S
-
3.00 Credits
Lecture course. This course focuses on failure analysis and design of machine components and integrated systems, synthesize mechanisms for specified performance, analyze given mechanisms for position, velocity, acceleration and static and dynamic forces. Perform a team design project. Prerequisites: MECH 3301, MECH 3302, and MECH 3315. (3-0) Y
-
1.00 - 9.00 Credits
Subject matter will vary from semester to semester. May be repeated as topics vary (9 hours maximum). ([1-9]-0) R
-
1.00 - 3.00 Credits
Project-based course associated with MECH 4310. Laboratory course focused on design, implementation, and use of portable digital data acquisition systems for characterization and control of dynamic mechanical systems. Emphasis on durable systems developed for harsh environments.Experiments design to test and evaluate control processes of dynamic mechanical systems. Co-requisite: MECH 4310. (0-1) Y
-
3.00 Credits
Lecture course. Introduction to linear control theory. General structure of control systems. Mathematical models including differential equations, transfer functions, and state space. Control system characteristics. Transient response, external disturbance, and steady-state error. Control system analysis. Performance, stability, root-locus method, Bode diagram, and Nyquist plot. Control system design. Compensation design using phase-lead and phaselag networks. Prerequisites: MECH 3302 and MECH 3310. (3-0) Y
-
3.00 Credits
Lecture course. This course covers ideal fluid flow, including potential flow theory, computer solutions in ideal fluid flow, viscous flow and boundary layer theory and introduction to turbulence. Prerequisite: MECH 3310. (3-0) Y
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2025 AcademyOne, Inc.
|
|
|