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Aerospace and Mechanical Engineering |
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AME 309 Dynamics of Fluids Units: 4 Terms Offered: FaSp Fluid statics; conservation of mass, momentum, and energy in integral and differential form; applications. Laminar and turbulent pipe flow; compressible flow; potential flow over bodies. Prerequisite: AME 201 Recommended Preparation: AME 310 Corequisite: MATH 245 Instruction Mode: Lecture Grading Option: Letter |
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AME 310 Engineering Thermodynamics I Units: 3 Terms Offered: FaSp Fundamental laws of thermodynamics applied to actual and perfect gases and vapors; energy concepts, processes, and applications. Prerequisite: MATH 226 or MATH 227 or MATH 229 Recommended Preparation: PHYS 151Lg , high-level programming language Instruction Mode: Lecture, Discussion Grading Option: Letter |
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AME 312 Engineering Thermodynamics II Units: 3 Terms Offered: Sp Application of thermodynamic principles to fluid flow, power cycles, and refrigeration. Prerequisite: AME 310 ; Recommended Preparation: high-level programming language. Instruction Mode: Lecture Grading Option: Letter |
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AME 331 Heat Transfer Units: 3 Terms Offered: Sp General principles underlying heat transfer by conduction, convection, and radiation; steady and transient conditions; heat exchangers. Prerequisite: AME 310 ; Corequisite: AME 309 or CE 309 . Instruction Mode: Lecture Grading Option: Letter |
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AME 341aL Mechoptronics Laboratory I and II Units: 3 Terms Offered: FaSp A coordinated laboratory and lecture sequence on aeromechanical instrumentation and device control stressing the symbiotic integration of mechanical, optical and electronic components. Prerequisite: (PHYS 152L or PHYS 162L ) and (MATH 126 or MATH 127 or MATH 129 ) Instruction Mode: Lecture, Lab Grading Option: Letter |
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AME 341bL Mechoptronics Laboratory I and II Units: 3 Terms Offered: FaSp A coordinated laboratory and lecture sequence on aeromechanical instrumentation and device control stressing the symbiotic integration of mechanical, optical and electronic components. Prerequisite: PHYS 152L , MATH 126 . Instruction Mode: Lecture, Lab Required Grading Option: Letter |
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AME 390 Special Problems Units: 1, 2, 3, 4 Supervised, individual studies. No more than one registration permitted. Enrollment by petition only. Instruction Mode: Lecture Grading Option: Letter |
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AME 403 Stress Analysis Units: 3 Terms Offered: Sp Theories of failure, shear center, unsymmetrical bending, curved beams, torsion of non-circular sections; cylinders, rotating discs, thermal stresses, inelastic strains, energy methods. Prerequisite: AME 204 . Instruction Mode: Lecture Grading Option: Letter |
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AME 404 Computational Solutions to Engineering Problems Units: 3 Terms Offered: Fa Mathematical aspects of the solutions to typical advanced mechanical engineering problems. Modeling, simulation, computational aspects, computer solutions, and computational tools. Recommended Preparation: FORTRAN, MATLAB and Maple. Instruction Mode: Lecture Grading Option: Letter |
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AME 405 Functional Approach to Computational Methods Units: 3 Terms Offered: Sp Introduction to computational methods in engineering: learning to develop and implement numerical algorithms for solving a range of mathematics, physics, and engineering problems. Suitable for undergraduate students in aerospace, bio, civil and mechanical engineering. Recommended Preparation: 1 year of college-level calculus and physics Instruction Mode: Lecture Grading Option: Letter |
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AME 408 Computer-Aided Design of Mechanical Systems Units: 3 Terms Offered: FaSp Design of mechanical systems using advanced graphics techniques; computer-aided drafting, design optimization, elements of computer graphics, solids modeling; introduction to computer-aided manufacturing. Prerequisite: AME 204 or CE 225 ; Recommended Preparation: AME 308 . Instruction Mode: Lecture Grading Option: Letter |
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AME 409 Senior Design Project Units: 4 Terms Offered: Sp Modeling, analysis, integration, layout and performance analysis of a mechanical system to meet specified design requirements. Prerequisite: senior standing. Instruction Mode: Lecture, Lab Grading Option: Letter |
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AME 410 Engineering Design Theory and Methodology Units: 3 Terms Offered: Fa Product planning and task clarification, voice of customers, quality function deployment, conceptual and embodiment design, axiomatic theory of design, product quality and manufacturability, design decision-making. Recommended Preparation: AME 305 . Instruction Mode: Lecture Grading Option: Letter |
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AME 412 Molecular Theory of Gases Units: 3 Terms Offered: Irregular Molecular structure; intermolecular potentials; molecular processes in gases; molecular interpretation of concepts of classical thermodynamics; radiative transport phenomena in gases. Prerequisite: AME 310 . Instruction Mode: Lecture Grading Option: Letter |
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AME 415 Turbine Design and Analysis Units: 3 Terms Offered: Fa Physics of turbine operation; design and analysis for the development of turbine hardware for propulsion and power generation. Recommended Preparation: familiarity with Matlab. Instruction Mode: Lecture Grading Option: Letter |
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AME 420 Engineering Vibrations I Units: 3 Terms Offered: Fa Theory of free and forced vibrations with and without damping; systems of single and multiple degrees of freedom; iteration; methods; vibration isolation; instrumentation. Prerequisite: MATH 245 Instruction Mode: Lecture, Discussion Grading Option: Letter |
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AME 423L Loudspeaker and Sound-System Design Units: 3 Terms Offered: Sp (Enroll in EE 423Lx ) |
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AME 428 Mechanics of Materials Units: 3 (Enroll in CE 428 ) |
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AME 430 Thermal Systems Design Units: 3 Terms Offered: Fa Design methodology for thermal systems; boilers, condensers, air conditioning, power generation, air pollution control, combustion and alternative fuels. Prerequisite: AME 331 ; Recommended Preparation: AME 312 . Instruction Mode: Lecture Grading Option: Letter |
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AME 436 Energy and Propulsion Units: 3 Terms Offered: Fa Performance and analysis of reciprocating, jet, rocket engines, and hybrid systems. Characteristics of inlets, compressors, combustors, turbines, nozzles and engine systems. Energy and environmental problems. Prerequisite: AME 310 ; AME 309 or CE 309 . Instruction Mode: Lecture Grading Option: Letter |
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AME 441aL Senior Projects Laboratory Units: 3 Terms Offered: FaSp Individual engineering projects designed and constructed to model and test a physical principle or system. Prerequisite: AME 341bL . Instruction Mode: Lecture, Lab Required Grading Option: Letter |
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AME 441bL Senior Projects Laboratory Units: 3 Terms Offered: FaSp Individual engineering projects designed and constructed to model and test a physical principle or system. Prerequisite: AME 341bL . Instruction Mode: Lecture, Lab Required Grading Option: Letter |
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AME 443 Control Systems Laboratory Units: 3 Terms Offered: Sp Vibration measurement and analysis; simulation, design, and experimental verification of mechanical control systems; identification of system parameters, implementation of controllers, verification of closed-loop performance via experimentation and stimulation. Prerequisite: AME 420 or AME 451 or EE 482 . Duplicates Credit in former AME 442bL. Instruction Mode: Lecture, Lab Grading Option: Letter Crosslisted as EE-481l |
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AME 451 Linear Control Systems I Units: 3 Transform methods, block diagrams; transfer functions; stability; root-locus and frequency domain analysis and design; state space and multiloop systems. Prerequisite: AME 302 and MATH 245 . Duplicates Credit in EE 482. Instruction Mode: Lecture Grading Option: Letter |
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AME 453 Engineering Dynamics Units: 3 Terms Offered: Sp Principles of dynamics applied to mechanical and aerospace problems. Introduction to gyroscopic motion and rigid body dynamics. Prerequisite: MATH 245 . Instruction Mode: Lecture Grading Option: Letter |
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AME 455 Introduction to MEMS Units: 3 Terms Offered: Sp Introduction to micro-electro-opto-mechanical systems; scaling effects on material properties, fluid flows, dynamical behavior; fabrication methods; design considerations for MEMS sensors and actuators. Recommended Preparation: AME 301 , AME 309 and AME 310 . Instruction Mode: Lecture Grading Option: Letter Crosslisted as EE-415 |
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AME 457 Engineering Fluid Dynamics Units: 3 Terms Offered: Fa Laminar and turbulent boundary layer flow with and without heat transfer; boundary layer separation, stability, transition and control; introduction to compressible fluid flow. Prerequisite: AME 310 ; AME 309 or CE 309 . Instruction Mode: Lecture Grading Option: Letter |
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AME 458 Theory of Structures II Units: 3 (Enroll in CE 458 ) |
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AME 459 Flight Mechanics Units: 3 Terms Offered: Fa Applications of basic aerodynamics to aircraft and missile performance, power and thrust, stability and control, compressibility effects. Recommended Preparation: AME 309 . Instruction Mode: Lecture Grading Option: Letter |
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AME 460 Aerodynamic Theory Units: 3 Basic relations describing the inviscid flow field about bodies and wings moving at subsonic and supersonic speeds. Prerequisite: AME 309 . Instruction Mode: Lecture Grading Option: Letter |
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AME 461 Formation Evaluation Units: 3 (Enroll in PTE 461 ) |
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AME 462 Economic, Risk and Formation Productivity Analysis Units: 4 (Enroll in PTE 462 ) |
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AME 463L Introduction to Transport Processing in Porous Media Units: 3 (Enroll in PTE 463L ) |
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AME 464L Petroleum Reservoir Engineering Units: 3 (Enroll in PTE 464L ) Instruction Mode: Lecture, 3 hours; laboratory, 3 hours. |
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AME 465L Drilling Technology and Subsurface Methods Units: 3 (Enroll in PTE 465L ) Instruction Mode: Lecture, 3 hours; laboratory, 3 hours. |
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AME 481 Aircraft Design Units: 4 Terms Offered: Sp Aircraft design and analysis, design requirements and specifications; integration of structure, propulsion, control system, and aerodynamic configuration; performance analysis and prediction. Instruction Mode: Lecture Grading Option: Letter |
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AME 485 Aerospace Structures I Units: 3 Terms Offered: FaSp Design, qualification, and workmanship verification of aerospace structures. Analysis for assessing buckling and crippling, welds, and analysis of connections and thin-walled structures. Prerequisite: AME 204 Recommended Preparation: AME 231L or MASC 310 Duplicates Credit in former AME 353 Instruction Mode: Lecture Grading Option: Letter |
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AME 486 Mechanics of Composite Materials for Modern Structures Units: 3 Terms Offered: Sp Current and potential applications of composite materials including manufacturing methods; determining mechanical properties; failure analysis; and design, inspection, and repair considerations. Prerequisite: AME 204 Registration Restriction: Open only to seniors Instruction Mode: Lecture Grading Option: Letter |
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AME 490x Directed Research Units: 1, 2, 3, 4, 5, 6, 7, 8 Max Units: 12.0 Individual research and readings. Not available for graduate credit. Instruction Mode: Lecture Grading Option: Letter |
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AME 491 Undergraduate Design Projects II Units: 1 Max Units: 4.0 Terms Offered: FaSp Analysis, design, fabrication, and evaluation of devices intended for entry in local and national design competitions. Intended for students with prior project experience. Upper division standing. Instruction Mode: Lecture Grading Option: Credit/No Credit |
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AME 499 Special Topics Units: 2, 3, 4 Max Units: 8.0 Terms Offered: FaSpx Course content to be selected each semester from recent developments in mechanical engineering and related fields. Instruction Mode: Lecture Grading Option: Letter |
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AME 502 Modern Topics in Aerospace Design Units: 3 Terms Offered: Fa Current topics in Aerospace Engineering are addressed by a number of industry panelists. Students, under panelists’ supervision and guidance, complete independent research reports and briefings. Recommended Preparation: AME 261 , AME 441, AME 481 or equivalents. Genuine interest in design of flight vehicles. Registration Restriction: Open only to seniors, master and doctoral students. Instruction Mode: Lecture Grading Option: Letter |
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AME 503 Advanced Mechanical Design Units: 3 Terms Offered: Fa Specific problems and methods of analysis in mechanical systems design. Instruction Mode: Lecture Grading Option: Letter |
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AME 505 Engineering Information Modeling Units: 3 Terms Offered: Sp Symbolic and object-oriented modeling, product and process modeling for design and manufacturing, information models for computer integrated and collaborative engineering, information modeling for life-cycle engineering. Instruction Mode: Lecture Grading Option: Letter |
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AME 507 Mechanics of Solids I Units: 3 (Enroll in CE 507 ) |
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AME 509 Applied Elasticity Units: 3 Terms Offered: Sp Condensed treatment dealing with engineering applications of the principles of elasticity, using the theories of elasticity, elastic stability, and plates and shells. Prerequisite: AME 403 Instruction Mode: Lecture Grading Option: Letter |
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AME 511 Compressible Gas Dynamics Units: 3 Terms Offered: Sp Thermodynamics, kinetic theory, compressible flow equations, shock and expansion waves, similarity, shock-expansion techniques and linearized flow applied to bodies, characteristics, theory of boundary layers. Instruction Mode: Lecture Grading Option: Letter |
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AME 513 Principles of Combustion Units: 3 Terms Offered: Fa Thermochemistry, equilibrium, chemical kinetics, flame temperature, flame velocity, flame stability, diffusion flames spray combustion, detonation. Equations of motion including reaction, heat transfer, and diffusion. Instruction Mode: Lecture Grading Option: Letter Crosslisted as CHE-513 |
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AME 514 Applications of Combustion and Reacting Flows Units: 3 Terms Offered: Sp Advanced topics and modern developments in combustion and reacting flows including ignition and extinction, pollutant formation, microscale and microgravity combustion, turbulent combustion and hypersonic propulsion. Recommended Preparation: AME 513 . Instruction Mode: Lecture Grading Option: Letter |
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AME 515 Advanced Problems in Heat Conduction Units: 3 Terms Offered: Sp Review of analytical methods in heat conduction; moving boundaries melting and freezing; sources and sinks, anisotropic and composite media; numerical methods for steady and unsteady problems. Recommended Preparation: AME 331 , AME 526 . Instruction Mode: Lecture Grading Option: Letter |
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AME 516 Convection Processes Units: 3 Terms Offered: Sp Analysis of isothermal and nonisothermal boundary layers. Exact and approximate solutions of laminar and turbulent flows. Variable-property and high-speed effects; dimensional analysis. Prerequisite: AME 457 ; Recommended Preparation: AME 526 , AME 331 . Instruction Mode: Lecture Grading Option: Letter |
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AME 517 Radiation Heat Transfer Units: 3 Terms Offered: Fa Radiation properties; black body radiation; shape factors of radiation network analogy and solar radiation. Prerequisite: AME 331 ; Corequisite: AME 525 or AME 526 . Instruction Mode: Lecture Grading Option: Letter |
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AME 520 Modeling of Bio-Systems Units: 3 Terms Offered: Sp Interacting population dynamics, Cheyne-Stokes respiration, reaction kinetics, biological switches, neuronal models, BZ reaction, phase locking, reaction diffusion, chemotaxis, biological waves, and animal coat patterns. Recommended Preparation: MATH 245 . Instruction Mode: Lecture Grading Option: Letter Crosslisted as BISC-522, BME-520 |
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AME 521 Engineering Vibrations II Units: 3 Terms Offered: Fa Multi-degree of freedom systems; modal analysis. Rayleigh’s quotient. Continuous systems; modal analysis. Beams, rods, membranes. Colocations, Galerkin, Rayleigh Ritz methods; finite elements. Prerequisite: AME 420 . Instruction Mode: Lecture Grading Option: Letter |
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AME 522 Nonlinear Dynamical Systems, Vibrations, and Chaos Units: 3 Terms Offered: Fa Lagrange equations; nonlinear maps and differential equations; fixed points; periodic motion; qualitative/quantitative and local/global analysis; higher order systems; stability; bifurcations; chaos; fractals. Instruction Mode: Lecture Grading Option: Letter |
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AME 523 Random Vibrations Units: 3 Terms Offered: Irregular Random processes, ergodic theory. Ito calculus. Linear systems under stationary and nonstationary excitations. Fokker-Planck equations. Failure analysis and first passage problems. Prerequisite: AME 420 , basic probability (or MATH 407 ), AME 451 recommended. Instruction Mode: Lecture Grading Option: Letter |
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AME 524 Advanced Engineering Dynamics Units: 3 Terms Offered: Fa Principle of virtual work, constraints, Lagrange’s equations, Gibbs-Appell equations, Gauss’s Principle, Theory of Rotations, dynamics of rigid bodies, Hamiltonian mechanics, Hamilton-Jacobi equation. Recommended Preparation: AME 521 , AME 525 . Instruction Mode: Lecture Grading Option: Letter |
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AME 525 Engineering Analysis Units: 3 Terms Offered: FaSpSm Typical engineering problems discussed on a physical basis. Vector analysis; functions of complex variables, infinite series, residues. Instruction Mode: Lecture Grading Option: Letter |
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AME 526 Engineering Analytical Methods Units: 3 Terms Offered: FaSpSm Typical engineering problems discussed on a physical basis. Fourier series; Fourier integrals; Laplace transform; partial differential equations; Bessel function. Instruction Mode: Lecture Grading Option: Letter |
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AME 527 Elements of Vehicle and Energy Systems Design Units: 3 Terms Offered: Irregular Design synthesis of aero/hydro/mechanical systems; techniques of design; conceptual thinking; problem definition, configurational development, analytic engineering approximation, oral briefings and group problem solving. Instruction Mode: Lecture Grading Option: Letter |
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AME 528a Finite Element Analysis Units: 3 Terms Offered: Fa (Enroll in CE 529a ) |
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AME 528b Finite Element Analysis Units: 3 Terms Offered: Sp (Enroll in CE 529b ) |
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AME 529 Aircraft Structures Analysis Units: 3 Terms Offered: Sp The direct stiffness (finite element) method for analysis of semimonocoque structures; energy methods; elasticity, plates and shells, vibration, and stability; system identification. Instruction Mode: Lecture Grading Option: Letter |
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AME 530a Dynamics of Incompressible Fluids Units: 3 Terms Offered: FaSp A unified discussion of low-speed fluid mechanics including exact solutions; approximation techniques for low and high Reynolds numbers; inviscid flows; surface waves; dynamic stability; turbulence. Instruction Mode: Lecture Grading Option: Letter |
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AME 530b Dynamics of Incompressible Fluids Units: 3 Terms Offered: FaSp A unified discussion of low-speed fluid mechanics including exact solutions; approximation techniques for low and high Reynolds numbers; inviscid flows; surface waves; dynamic stability; turbulence. Instruction Mode: Lecture Grading Option: Letter |
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AME 532a Flight Vehicle Stability and Control Units: 3 Terms Offered: FaSp Response of flight to linear, nonlinear, and randomly defined disturbances. Generation and measurement of error signals in navigational systems. Stability and control techniques. Recommended Preparation: AME 459 . Instruction Mode: Lecture Grading Option: Letter |
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AME 532b Flight Vehicle Stability and Control Units: 3 Terms Offered: FaSp Response of flight to linear, nonlinear, and randomly defined disturbances. Generation and measurement of error signals in navigational systems. Stability and control techniques. Recommended Preparation: AME 459 . Instruction Mode: Lecture Grading Option: Letter |
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AME 533 Multi-Phase Flows Units: 3 Terms Offered: Sp Physics of the interaction between phases, empirical and analytical methods of solution to relevant technological problems. Prerequisite: AME 457 . Instruction Mode: Lecture Grading Option: Letter |
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AME 534 Nuclear Thermal-Hydraulics Units: 3 Terms Offered: Fa Thermal-fluid phenomena for nuclear power stations. Heat generation by nuclear reactions, conduction in fuel rods, and transport of generated heat by convection, boiling, and condensation. Prerequisite: AME 457 or AME 530a ; and AME 526 and AME 581 ; Recommended Preparation: undergraduate degree in engineering. Instruction Mode: Lecture Grading Option: Letter |
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AME 535a Introduction to Computational Fluid Mechanics Units: 3 Terms Offered: FaSp Convergence, consistency, stability: finite difference, finite element, and spectral methods; direct and iterative procedures for steady problems; linear diffusion and advection problems; non-linear advection problems. Recommended Preparation: AME 526 . Instruction Mode: Lecture Grading Option: Letter |
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AME 535b Introduction to Computational Fluid Mechanics Units: 3 Terms Offered: FaSp Generalized curvilinear coordinates; grid generation; numerical techniques for transonic and supersonic inviscid flows; boundary layer flows; reduced Navier-Stokes equations; compressible and incompressible viscous flows. Recommended Preparation: AME 511 or AME 530a , AME 535a . Instruction Mode: Lecture Grading Option: Letter |
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AME 537 Microfluidics Units: 3 Terms Offered: Fa Introduction to fluid dynamics in the microscale. Scaling parameters, dynamic, thermodynamic, electroosmotic and electrochemical forces. Flow in microdevices, external flow measurement and control, microvalves and micropumps. Limited to students with graduate standing. Recommended Preparation: AME 309 , MATH 445 . Instruction Mode: Lecture Grading Option: Letter |
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AME 539 Multi-body Dynamics Units: 3 Terms Offered: Sp Kinematics and kinetics of rigid body motion, quaternions; elastic vibrations of continua; geometric and material nonlinearities; Galerkin methods; meshless finite elements; complex dynamical systems; computational methods. Instruction Mode: Lecture Grading Option: Letter |
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AME 541 Linear Control Systems II Units: 3 Terms Offered: Fa State space representation, linearization, solution of state equations; controllability and observability; state feedback, state observers; optimal control; output feedback. Prerequisite: AME 451 Duplicates Credit in EE 585 Instruction Mode: Lecture, Discussion Grading Option: Letter |
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AME 542 Theory of Plates Units: 3 (Enroll in CE 542 ) |
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AME 544 Computer Control of Mechanical Systems Units: 3 Terms Offered: Sp Computer control as applied to machine tools, mechanical manipulators, and other mechanical machinery; discrete time controller design; microprocessor implementation of motion and force control servos. Prerequisite: AME 451 . Instruction Mode: Lecture Grading Option: Letter |
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AME 545 Modeling and Control of Distributed Dynamic Systems Units: 3 Terms Offered: Sp Modeling and analysis of complex flexible mechanical systems; distributed transfer function synthesis; frequency-domain control methods; smart structure design; applications in vibration and noise control. Prerequisite: AME 521 and AME 541 . Instruction Mode: Lecture Grading Option: Letter |
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AME 547 Foundations for Manufacturing Automation Units: 3 Terms Offered: Fa Fundamentals of contemporary manufacturing automation; underlying building blocks of the automation system; mechanics-based models for designing automation system; and physical and decision-making aspects of automation. Recommended Preparation: AME 451 Instruction Mode: Lecture Grading Option: Letter |
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AME 548 Analytical Methods in Robotics Units: 3 Terms Offered: Irregular Homogeneous transformations; formal description of robot manipulators; kinematic equations and their solution; differential relationships; dynamics; control; static forces; compliance. Prerequisite: EE 545 ; EE 482 or AME 451 ; knowledge of linear algebra. Instruction Mode: Lecture Grading Option: Letter Crosslisted as EE-548 |
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AME 549 Systems Architecting Units: 3 Terms Offered: FaSm (Enroll in SAE 549 ) |
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AME 550 Seminar in Aerospace and Mechanical Engineering Units: 1 Max Units: 03 Terms Offered: FaSp Recent developments and research in aerospace and mechanical engineering and related fields. Oral and written reports. Registration Restriction: Open only to AME graduate students. Duplicates Credit in former AME 550a and former AME 550b Instruction Mode: Lecture Grading Option: Credit/No Credit |
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AME 551 Mechanical Behavior of Engineering Materials Units: 3 (Enroll in MASC 551 ) |
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AME 552 Nonlinear Control Systems Units: 3 Terms Offered: Sp Phase plane, describing functions, applications to mechanical and aerospace systems. Lyapunov direct and indirect methods, applications; Popov circle criteria applications. Prerequisite: AME 541 . Instruction Mode: Lecture Grading Option: Letter |
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AME 553aL Digital Control Systems Units: 3 (Enroll in EE 543aL , EE 543bL ) Instruction Mode: (Lab is required for the b section only.) |
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AME 559 Creep Units: 3 Terms Offered: Fa (Enroll in MASC 559 ) |
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AME 560 Fatigue and Fracture Units: 3 Terms Offered: Sp (Enroll in MASC 560 ) |
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AME 561 Dislocation Theory and Applications Units: 3 (Enroll in MASC 561 ) |
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AME 567 Collaborative Engineering Principles and Practice Units: 3 Terms Offered: Sp (Enroll in ISE 567 ) |
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AME 572L Experimental Engineering Projects Units: 3 Experimental methods appropriate to engineering research, emphasizing interdisciplinary investigations. Individual projects. Instruction Mode: Lab Required Grading Option: Letter |
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AME 573 Aerosol Physics and Chemistry Units: 3 Terms Offered: Sp Examination of the fundamentals of aerosol formation and evolution, aerosol effects on health and climate, and the principles of aerosol measurement. Instruction Mode: Lecture Grading Option: Letter |
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AME 575 Advanced Engineering Analysis Units: 3 Terms Offered: Fa Solution of engineering problems by methods of calculus variations, integral equations, asymptotic expansions. Prerequisite: CE 525 or AME 525 and AME 526 . Instruction Mode: Lecture Grading Option: Letter |
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AME 576 Advanced Engineering Analytical Methods Units: 3 Terms Offered: Sp Solution of engineering problems by methods of linear and nonlinear partial differential equations of first and second order; perturbations. Prerequisite: AME 525 or AME 526 or CE 525 or CE 526 . Instruction Mode: Lecture Grading Option: Letter |
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AME 577 Survey of Energy and Power for a Sustainable Future Units: 3 Terms Offered: FaSp Power production includes conventional fossil fuels, synthetic fuels, hydroelectric, solar, wind, geothermal, biomass and nuclear. The environmental consequences of various energy sources are discussed. Duplicates Credit in CHE 510. Instruction Mode: Lecture Grading Option: Letter |
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AME 578 Modern Alternative Energy Conversion Devices Units: 3 Terms Offered: FaSp Alternative energy/power conversion including fuel cells, photovoltaic, batteries, and biologically inspired energy processes; biomass conversion and utilization; Environmental implications of alternative energy processes. Instruction Mode: Lecture Grading Option: Letter |
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AME 579 Combustion Chemistry and Physics Units: 3 Terms Offered: Sp Thermodynamics of combustion processes. Reaction mechanisms of hydrocarbon combustion. Pollutant formation. Theories and application of thermochemical kinetics and reaction rate theories. Transport in reacting flows. Instruction Mode: Lecture Grading Option: Letter |
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AME 581 Introduction to Nuclear Engineering Units: 3 Terms Offered: Fa Review of basic nuclear physics, binding energy, reactor kinetics, thermal transport in reactor systems, radioactivity, shielding, reactor safety and health effects of radiation, risk assessment. Open only to graduate students. Recommended Preparation: Undergraduate degree in engineering; AME 310 , MATH 245 , PHYS 153L . Instruction Mode: Lecture Grading Option: Letter |
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AME 582 Nuclear Reactor Physics Units: 3 Terms Offered: Sp Neutron-induced fission chain reactions, reactor criticality. Neutron transport and diffusion in nuclear reactors. Mathematical/computational foundation for diffusion theory and transport calculations for fission reactor design/analysis. Prerequisite: AME 526 and AME 581 ; Recommended Preparation: undergraduate degree in engineering and PHYS 153L . Instruction Mode: Lecture Grading Option: Letter |
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AME 583 Effects of Radiation on Health Units: 3 Terms Offered: Sp Nuclear physics relevant to human health. Biological effects of radiation, quantification and measurement of different types of radiation affecting living tissue, radiation protection, nuclear accidents. Prerequisite: AME 526 and AME 581 ; Recommended Preparation: undergraduate degree in engineering and PHYS 153L . Instruction Mode: Lecture Grading Option: Letter |
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AME 584 Fracture Mechanics and Mechanisms Units: 3 Terms Offered: Fa (Enroll in MASC 584 ) |
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