BME 5580 Introduction to Microfluidics and BioMEMS 3 Credits

Grading Scheme: Letter Grade

Introduction to concepts of miniaturization, materials and methods for microfabrication, principles of microfluidics, and biological applications of microfluidic devices and biomedical microelectromechanical systems.

Prerequisite: EGN 3353C or consent of instructor.

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EAS 5242 Mechanics of Composite Materials 3 Credits

Grading Scheme: Letter Grade

Micro- and macro-mechanics, thermo-mechanical analysis and failure theories for composite materials. Design and analysis of composite structural elements.

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EAS 5938 Special Topics in Aerospace Engineering 1-4 Credits, Max 8 Credits

Grading Scheme: Letter Grade

Special Topics in Aerospace Engineering

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EAS 6135 Molecular Theory of Fluid Flows 3 Credits

Grading Scheme: Letter Grade

Introduction to the molecular dynamics of gases and liquids, the Boltzmann equation, Chapman-Enskog expansion and derivation of Euler and Navier-Stokes equations, and lattice Boltzmann methods; and application to gas, liquid, and multiphase flows.

Prerequisite: EGM 6812 or equivalent.

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EAS 6138 Gasdynamics 3 Credits

Grading Scheme: Letter Grade

Theory of sound waves, subsonic and supersonic flows, shockwaves, explosions and implosions.

Prerequisite: EAS 4103 or EML 5714.

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EAS 6242 Advanced Structural Composites 3 Credits

Grading Scheme: Letter Grade

Micro- and macro-behavior of a lamina. Stress transfer of short fiber composites. Classical lamination theory, static analysis of laminated plates, free-edge effect, failure modes.

Prerequisite: EGM 3520.

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EAS 6413C Spacecraft Attitude Estimation and Control 3 Credits

Grading Scheme: Letter Grade

Sensors and actuators used in spacecraft attitude navigation and control, how to process data from sensors, and how to command actuators. Kalman and extended Kalman filtering, control methods based on momentum exchange devices (reaction wheels, control moment gyroscopes), and thrusters.

Prerequisite: (EAS 4510 or EAS 6939) and EML 5215, with minimum grades of B.

EAS 6415 Guidance and Control of Aerospace Vehicles 3 Credits

Grading Scheme: Letter Grade

Applying modern control theory to aerospace vehicles. Parameter identification methods applied to aircraft and missiles.

Prerequisite: EAS 4412 or equivalent.

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EAS 6905 Aerospace Research 1-6 Credits, Max 12 Credits

Grading Scheme: Letter Grade

Aerospace Research

Catalog Program Pages Referencing EAS 6905

EAS 6910 Supervised Research 1-5 Credits

Grading Scheme: S/U

Catalog Program Pages Referencing EAS 6910

EAS 6939 Special Topics in Aerospace Engineering 1-6 Credits, Max 12 Credits

Grading Scheme: Letter Grade

Laboratory, lectures, or conferences covering selected topics in space engineering.

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EAS 6971 Research for Master's Thesis 1-15 Credits

Grading Scheme: S/U

Research for Master's Thesis

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EAS 7979 Advanced Research 1-12 Credits

Grading Scheme: S/U

Research for doctoral students before admission to candidacy. Designed for students with a master's degree in the field of study or for students who have been accepted for a doctoral program. Not appropriate for students who have been admitted to candidacy.

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EAS 7980 Research for Doctoral Dissertation 1-15 Credits

Grading Scheme: S/U

Research for Doctoral Dissertation

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EGM 5111L Experimental Stress Analysis 3 Credits

Grading Scheme: Letter Grade

Introduction to techniques of experimental stress analysis in static systems. Lecture and laboratory include applications of electrical resistance strain gauges, photoelasticity, brittle coatings, moire fringe analysis, and X-ray stress analysis.

Prerequisite: EGM 3520.

EGM 5121C Data Measurement and Analysis 3 Credits

Grading Scheme: Letter Grade

Tools for random data analysis (including types of random data, mean values, mean-square values, probability density and distribution functions, moments and characteristic functions, and spectral and correlation analysis); bias and random error estimates in data measurements; input-output system models; and measurement examples.

EGM 5423 High Strain Rate Behavior of Materials 3 Credits

Grading Scheme: Letter Grade

Dynamic behavior of materials, comparison of material response between quasistatic and extremely high strain rates, deformation mechanisms, microstructural evolution at high strain rate, dynamic fracture, constitutive modeling, mechanical properties.

Prerequisite: EGM3520 or equivalent

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EGM 5533 Applied Elasticity and Advanced Mechanics of Solids 3 Credits

Grading Scheme: Letter Grade

Bars, beams, thin-walled structures, and simple continua in the elastic and inelastic range. Virtual work approaches, elastic energy principles, plastic limit theorems, and creep deformation procedures. Introduction to instability and fracture mechanics. Design applications.

Prerequisite: EGM 3520.

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EGM 5584 Biomechanics of Soft Tissue 3 Credits

Grading Scheme: Letter Grade

Introduction to solid and fluid mechanics of biological systems. Rheological behavior of materials subjected to static and dynamic loading. Mechanics of cardiovascular, pulmonary, and renal systems. Mathematical models and analytical techniques used in biosciences.

Prerequisite: EGN 3353C and EGM 3520.

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EGM 5816 Intermediate Fluid Dynamics 3 Credits

Grading Scheme: Letter Grade

Basic laws of fluid dynamics. Introduction to potential flow, viscous flow, boundary layer theory, and turbulence.

Prerequisite: EGN 3353C (or CWR 3201), MAP 2302.

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EGM 6321 Principles of Engineering Analysis I 3 Credits

Grading Scheme: Letter Grade

Solution of linear and nonlinear ordinary differential equations. Methods of Frobenius, classification of singularities. Integral representation of solutions. Treatment of the Bessel, Hermite, Legendre, hypergeometric, and Mathieu equations. Asymptotic methods including the WBK and saddle point techniques. Treatment of nonlinear autonomous equations. Phase plane trajectories and limit cycles. Thomas-Fermi, Emden, and van der Pol equations.

Prerequisite: EGM 4313 or MAP 4305.

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EGM 6322 Principles of Engineering Analysis II 3 Credits

Grading Scheme: Letter Grade

Partial differential equations of first and second order. Hyperbolic, parabolic, and elliptic equations including the wave, diffusion, and Laplace equations. Integral and similarity transforms. Boundary value problems of the Dirichlet and Neumann type. Green's functions, conformal mapping techniques, and spherical harmonics. Poisson, Helmholtz, and Schroedinger equations.

Prerequisite: EGM 4313 or MAP 4341.

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EGM 6341 Numerical Methods of Engineering Analysis I 3 Credits

Grading Scheme: Letter Grade

Finite-difference calculus; interpolation and extrapolation; roots of equations; solution of algebraic equations; eigenvalue problems; least-squares method; quadrature formulas; numerical solution of ordinary differential equations; methods of weighted residuals. Use of digital computer.

Prerequisite: EGM 4313 or equivalent.

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EGM 6342 Fundamentals of Computational Fluid Dynamics 3 Credits

Grading Scheme: Letter Grade

Fundamentals of computational fluid dynamics. Spatial discretisations, semi-discritisations, time-integration methods, full discretisations.

Prerequisite: EGM 6341 and EGM 6813 or consent of instructor.

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EGM 6352 Advanced Finite Element Methods 3 Credits

Grading Scheme: Letter Grade

The discontinuous Galerkin method applied to transient problems. Optimization theory applied to formulating mixed FEM; treatment of constraints (e.g., incompressibility). General shape functions. Electromagnetics, heat, fluids, and solids. Other advanced topics.

Prerequisite: EGM 6351.

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EGM 6365 Structural Optimization 3 Credits

Grading Scheme: Letter Grade

Structural optimization via calculus of variations. Applying techniques of numerical optimization to design trusses, frames, and composite laminates. Calculating the sensitivity of structural response. Approximation and fast reanalysis techniques. Optimality criteria methods.

Prerequisite: EML 4500, EGM 4350,EML 5526, or EGM 6451.

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EGM 6570 Principles of Fracture Mechanics 3 Credits

Grading Scheme: Letter Grade

Introduction to the mechanics of fracture of brittle and ductile materials. Linear elastic fracture mechanics; elastic-plastic fracture; fracture testing; numerical methods; composite materials; creep and fatigue fracture.

Prerequisite: EGM 6611.

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EGM 6611 Continuum Mechanics 3 Credits

Grading Scheme: Letter Grade

Tensors of stress and deformation. Balance and conservation laws, thermodynamic considerations. Examples of linear constitutive relations. Field equations and boundary conditions of fluid flow.

Prerequisite: EGM 3520.

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EGM 6671 Inelastic Materials 3 Credits

Grading Scheme: Letter Grade

Virtual work, stability, extremum principles. Applications on the microscale, miniscale, and macroscale. Thermodynamics, internal variables, damage parameters, and time and temperature effects. Fracture mechanics. Finite elastoplasticity.

Prerequisite: EGM 6611.

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EGM 6812 Fluid Mechanics I 3 Credits

Grading Scheme: Letter Grade

Flow kinematics. Fundamental laws and equations in integral and differential forms. Potential flows. Introduction to laminar flows in simple geometries, laminar and turbulent boundary layer flows. External flows. One-dimensional compressible flows.

Prerequisite: EGN 3353C.

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EGM 6813 Fluid Mechanics II 3 Credits

Grading Scheme: Letter Grade

Mathematical and physical structures of the Navier-Stokes equation. Exact solutions of the Navier-Stokes equation for viscous flows. Low Reynolds number flows. Incompressible and compressible laminar boundary layer flows. Free shear flows. Energy equation and heat transfer. Unsteady flows. Instability. Turbulence.

Prerequisite: EGM 6812.

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EGM 6855 Bio-Fluid Mechanics and Bio-Heat Transfer 3 Credits

Grading Scheme: Letter Grade

Biothermal fluid sciences. Emphasizes physiological processes occurring in human blood circulation and underlying physical mechanisms, from an engineering perspective.

Prerequisite: undergraduate fluid mechanics.

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EGM 6905 Individual Study 1-6 Credits, Max 12 Credits

Grading Scheme: Letter Grade

Individual Study

Catalog Program Pages Referencing EGM 6905

EGM 6934 Special Topics in Engineering Mechanics 1-6 Credits, Max 12 Credits

Grading Scheme: Letter Grade

Special Topics in Engineering Mechanics

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EGM 6936 Graduate Seminar 1 Credit, Max 6 Credits

Grading Scheme: Letter Grade

Discussions and presentations in the fields of graduate study and research.

Catalog Program Pages Referencing EGM 6936

EGM 7819 Computational Fluid Dynamics 3 Credits

Grading Scheme: Letter Grade

Finite difference methods for PDE. Navier-Stokes equations for incompressible and compressible fluids. Boundary fitted coordinate transformation, adaptive grid techniques. Numerical methods and computer codes for fluid flow problems.

Prerequisite: EGM 6342 and EGM 6813 or equivalent.

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EGM 7845 Turbulent Fluid Flow 3 Credits

Grading Scheme: Letter Grade

Definition of turbulence, basic equations of motion. Instability and transition. Statistical methods, correlation and spectral functions. Experimental methods, flow visualization. Isotropic homogeneous turbulence. Shear turbulence, similitude, the turbulent boundary layer, rough turbulent flow. Jets and wakes. Heat convection, thermally driven turbulence.

Prerequisite: EGM 6813 or equivalent.

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EGM 7979 Advanced Research 1-12 Credits

Grading Scheme: S/U

Research for doctoral students before admission to candidacy. Designed for students with a master's degree in the field of study or for students who have been accepted for a doctoral program. Not appropriate for students who have been admitted to candidacy.

Catalog Program Pages Referencing EGM 7979

EGM 7980 Research for Doctoral Dissertation 1-15 Credits

Grading Scheme: S/U

Research for Doctoral Dissertation

Catalog Program Pages Referencing EGM 7980

EGN 5949 Practicum/Internship/Cooperative Work Experience 1-6 Credits, Max 6 Credits

Grading Scheme: S/U

Practical cooperative engineering work under approved industrial and faculty supervision.

Prerequisite: graduate student.

Catalog Program Pages Referencing EGN 5949

EGN 6640 Entrepreneurship for Engineers 3 Credits

Grading Scheme: Letter Grade

Introduction to entrepreneurship, idea generating and feasibility analysis, and business planning. Lectures, case studies, student-led discussions, team business plans, and investor presentations.

Catalog Program Pages Referencing EGN 6640

EGN 6913 Engineering Graduate Research 0-3 Credits

Grading Scheme: S/U

Course will provide the student with supervised research in a laboratory setting.

Catalog Program Pages Referencing EGN 6913

EML 5045 Computational Methods for Design and Manufacturing 3 Credits

Grading Scheme: Letter Grade

Geometric and solid modeling, feature-based design, and parametric models. Applications to product design, rapid prototyping, and manufacturing.

Prerequisite: EML 3023 or consent of instructor.

Catalog Program Pages Referencing EML 5045

EML 5104 Classical and Statistical Thermodynamics 3 Credits

Grading Scheme: Letter Grade

First and second laws of thermodynamics. Free energy and chemical equilibrium. Micro- and macroscopic states. Fermi-Dirac and Bose-Einstein statistics. Partition functions.

Catalog Program Pages Referencing EML 5104

EML 5131 Combustion 3 Credits

Grading Scheme: Letter Grade

Chemical thermodynamics, chemical kinetics, flame propagation, detonation and explosion, combustion of droplets and spray.

Prerequisite: EML 3101 or consent of instructor.

Catalog Program Pages Referencing EML 5131

EML 5215 Analytical Dynamics I 3 Credits

Grading Scheme: Letter Grade

Analytical methods of statics and dynamics. Principle of virtual work, holonomic and nonholonmic constraints. Lagrange equations for constrained and unconstrained systems, conservation laws, stability analysis by perturbation about steady state, Jacobi first integral, generalized impulse and momentum.

Prerequisite: dynamics.

Catalog Program Pages Referencing EML 5215

EML 5223 Structural Dynamics 3 Credits

Grading Scheme: Letter Grade

Vibration analysis and synthesis of continuous and multidegree-of-freedom lumped-parameter systems. Computational and experimental techniques in modal analysis.

Prerequisite: EML 4220.

Catalog Program Pages Referencing EML 5223

EML 5224 Acoustics 3 Credits

Grading Scheme: Letter Grade

Theory of sound. Plane waves and three-dimensional acoustic fields. Sound transmission and reflection. Dissipation, radiation, and scattering.

Prerequisite: ENG 3353C, EGM 4313, or consent of instructor.

Catalog Program Pages Referencing EML 5224

EML 5233 Failure of Materials in Mechanical Design 3 Credits

Grading Scheme: Letter Grade

Evaluation of fatigue life of machine elements and aerospace structures. Steady and alternating multi-axial stress. High cycle fatigue and low cycle fatigue.

Prerequisite: 6EG, 7EG, 8EG, 9EG, or EML3005

Catalog Program Pages Referencing EML 5233

EML 5311 Control System Theory 3 Credits

Grading Scheme: Letter Grade

Analyzing dynamic mechanical engineering control systems. Introduction to classical, digital, and state space techniques. Modeling, stability, transient response, and frequency response. Considers implementation.

Catalog Program Pages Referencing EML 5311

EML 5318 Computer Control of Machines and Processes 3 Credits

Grading Scheme: Letter Grade

Basic concepts, including hardware and software. Modeling of machines, processes, and their controllers.

Prerequisite: CGS 2425 or consent of instructor.

Catalog Program Pages Referencing EML 5318

EML 5465 Energy Management for Mechanical Engineers 3 Credits

Grading Scheme: Letter Grade

Energy use analysis in building envelopes, mechanical systems, and industrial processes. Energy conservation strategies and design techniques. Alternative energy applications.

Prerequisite: consent of instructor.

Catalog Program Pages Referencing EML 5465

EML 5515 Gas Turbines and Jet Engines 3 Credits

Grading Scheme: Letter Grade

Theory and analysis of gas turbine engines and major components.

Prerequisite: EGN 3353C or EAS 4101 or equivalent.

Catalog Program Pages Referencing EML 5515

EML 5516 Design of Thermal Systems 3 Credits

Grading Scheme: Letter Grade

Modeling of thermal equipment; system simulation; optimization, search methods, thermal system design and optimization using dynamic, geometric, and linear programming; simulation of large systems, vector and reduced gradient searches.

Prerequisite: EML 4141 and 4702 or equivalent.

Catalog Program Pages Referencing EML 5516

EML 5526 Finite Element Analysis and Application 3 Credits

Grading Scheme: Letter Grade

Fundamentals, including discrete system analysis, dynamic analysis of structures, steady state and transient heat transfer analysis, and incompressible fluids analysis. Modeling, analysis, and design using FEA software.

Prerequisite: EGM 3520 or equivalent.

Catalog Program Pages Referencing EML 5526

EML 5595 Mechanics of the Human Locomotor System 3 Credits

Grading Scheme: Letter Grade

Analyzing the human musculoskeletal system as sensors, levers, and actuators. Joint articulations and their mechanical equivalents. Kinematic and kinetic analysis of human motion. Introduction to modeling human body segments to analyze human activities.

Prerequisite: EGM 3401, 3520.

Catalog Program Pages Referencing EML 5595

EML 5598 Orthopedic Biomechanics 3 Credits

Grading Scheme: Letter Grade

Mechanical properties of the human body's hard and soft tissues. Mechanical and biological considerations for repair and replacement of soft and hard tissues and joints. Fracture fixation, orthopedic implants for hip and knee, and orthotic and prosthetic devices.

Prerequisite: mechanics of materials.

Catalog Program Pages Referencing EML 5598

EML 5605 Advanced Refrigeration 3 Credits

Grading Scheme: Letter Grade

Analysis and design considerations for vapor compression, absorption, steam-jet, thermoelectric, and air refrigeration systems.

Prerequisite: EML 4601.

Catalog Program Pages Referencing EML 5605

EML 5714 Introduction to Compressible Flow 3 Credits

Grading Scheme: Letter Grade

One-dimensional and quasi-one-dimensional compressible fluid flows. Mach waves, normal shocks, oblique shocks, Prandtl-Meyer expansions, isentropic flow with area change, Fanno flow, Rayleigh flow.

Catalog Program Pages Referencing EML 5714

EML 6154 Conduction Heat Transfer 3 Credits

Grading Scheme: Letter Grade

Heat conduction in homogeneous, heterogeneous, isotropic, anisotropic, stationary, and moving bodies; in Cartesian, cylindrical and spherical systems. Examines exact and approximate solutions.

Prerequisite: MAP 2302, EML 4141.

Catalog Program Pages Referencing EML 6154

EML 6155 Convective Heat Transfer I 3 Credits

Grading Scheme: Letter Grade

Applying equations of motion and energy to forced and free convection with laminar and turbulent flow. Solution techniques to include simplification to ordinary differential equations, boundary layer approximations, similarity transformations, and integral approximations. Phenomenological treatment of turbulent transport.

Prerequisite: EML 4702, 4141.

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EML 6156 Multiphase Convection Heat Transfer 3 Credits

Grading Scheme: Letter Grade

Detailed coverage of advanced convection heat transfer topics: boiling and condensation, high-velocity convection, transpiration cooling, convection around bodies, free jet flow, oscillating fluids, and microelectronic cooling.

Prerequisite: EML 6155.

Catalog Program Pages Referencing EML 6156

EML 6157 Radiation Heat Transfer 3 Credits

Grading Scheme: Letter Grade

Theory and analysis of radiation exchange in transparent and absorbing, and emitting and scattering media.

Prerequisite: MAP 2302, EML 4141.

Catalog Program Pages Referencing EML 6157

EML 6229 Introduction to Random Dynamical Systems 3 Credits

Grading Scheme: Letter Grade

Analysis of stochastic systems found in science and engineering applications. Practical application of uncertainty analysis in nonlinear dynamical systems.

Prerequisite: Knowledge of functional analysis and MATLAB or similar programming language.

Catalog Program Pages Referencing EML 6229

EML 6267 Advanced Manufacturing Processes and Analysis 3 Credits

Grading Scheme: Letter Grade

Integrated treatment of the analysis and applications of advanced manufacturing processes.

Catalog Program Pages Referencing EML 6267

EML 6281 Geometry of Mechanisms and Robots I 3 Credits

Grading Scheme: Letter Grade

Developing applications to basic theory of the mathematics required to design spatial mechanisms and robot arms. Examples include mathematical description of the elements of mechanisms and robot arms (namely linkages and joints); their mobility and their analysis.

Catalog Program Pages Referencing EML 6281

EML 6282 Geometry of Mechanisms and Robots II 3 Credits

Grading Scheme: Letter Grade

Applying the theory of screws to determine stationary and uncertainty configurations of mechanisms and robot arms. Dexterity and workspace of robot arms.

Catalog Program Pages Referencing EML 6282

EML 6323 Nontraditional Manufacturing 3 Credits

Grading Scheme: Letter Grade

Focusing on nontraditional additive and subtractive manufacturing processes using electrical, chemical, ultrasonic, magnetic, and photonic energy - including processes and equipment.

Prerequisite: Graduate standing

Catalog Program Pages Referencing EML 6323

EML 6324 Fundamentals of Production Engineering 3 Credits

Grading Scheme: Letter Grade

Fundamentals of metal cutting, metal forming, and welding. Accuracy and rigidity of machine tools. Automation, numerical control, adaptive control.

Catalog Program Pages Referencing EML 6324

EML 6350 Introduction to Nonlinear Control 3 Credits

Grading Scheme: Letter Grade

Introduction to nonlinear analysis and control systems theory. Lyapunov-based analysis and design techniques.

Catalog Program Pages Referencing EML 6350

EML 6351 Nonlinear Control II: Adaptive Control 3 Credits

Grading Scheme: Letter Grade

Control methods for uncertain nonlinear systems. Lyapunov-based robust, adaptive, learning, and estimation-based methods.

Prerequisite: EML 6350

Catalog Program Pages Referencing EML 6351

EML 6352 Optimal Estimation and Kalman Filtering 3 Credits

Grading Scheme: Letter Grade

Methods of estimating parameters and random variables from noisy measurements with applications. State estimation of linear and non-linear dynamic systems with Kalman filtering and extended Kalman filtering, with mechanical and aerospace engineering applications such as target tracking.

Prerequisite: EML 5311  or EEL 5182 or Equivalent

Catalog Program Pages Referencing EML 6352

EML 6365 Robust Control Synthesis 3 Credits

Grading Scheme: Letter Grade

Application of uncertainty modeling and robust controls to dynamic systems for both analysis and synthesis.

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EML 6417 Solar Energy Utilization 3 Credits, Max 6 Credits

Grading Scheme: Letter Grade

Solar energy; its characteristics and availability; collection and storage; conversion and use as heat, refrigeration, thermal electric and power, photovoltaic conversion; and other applications.

Catalog Program Pages Referencing EML 6417

EML 6451 Energy Conversion 3 Credits

Grading Scheme: Letter Grade

Converting available forms of energy into mechanical and electrical forms; energy conversion schemes, including conventional cycles in unusual environments. MHD, photovoltaics, thermionic and thermoelectric conversion and fuel cells.

Catalog Program Pages Referencing EML 6451

EML 6606 Advanced Air Conditioning 3 Credits

Grading Scheme: Letter Grade

Air-conditioning system selection and system design; air-handling techniques including noise control, cleaning, and temperature and humidity control; modern technological development and economic analysis.

Prerequisite: EML 4600.

Catalog Program Pages Referencing EML 6606

EML 6905 Individual Projects in Mechanical Engineering 1-3 Credits, Max 9 Credits

Grading Scheme: Letter Grade

Individual Projects in Mechanical Engineering

Catalog Program Pages Referencing EML 6905

EML 6934 Special Topics in Mechanical Engineering 1-4 Credits, Max 12 Credits

Grading Scheme: Letter Grade

Special Topics in Mechanical Engineering

Catalog Program Pages Referencing EML 6934

EML 6971 Research for Master's Thesis 1-15 Credits

Grading Scheme: S/U

Research for Master's Thesis

Catalog Program Pages Referencing EML 6971

EML 7979 Advanced Research 1-12 Credits

Grading Scheme: S/U

Research for doctoral students before admission to candidacy. Designed for students with a master's degree in the field of study or for students who have been accepted for a doctoral program. Not appropriate for students who have been admitted to candidacy.

Catalog Program Pages Referencing EML 7979

EML 7980 Research for Doctoral Dissertation 1-15 Credits

Grading Scheme: S/U

Research for Doctoral Dissertation

Catalog Program Pages Referencing EML 7980