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AOE CoursesThe following are all of the courses offered by the Department of Aerospace and Ocean Engineering. The Department requires that undergraduate students must earn a grade of C- or higher in all courses that are prerequisites to required AOE courses. This is effective for prerequisite courses taken Fall 2005 or later. Follow the links to the sidebarif you would like to review course requirements specific to the corresponding program of study.AOE 2074 COMPUTATIONAL METHODS Solving engineering problems using numerical methods and software, truncation and round-off error, root finding, linear and polynomial regression, interpolation, splines, numerical integration, numerical differentiation, solution of linear simultaneous equations, numerical solutions of ordinary differential equations. A grade of C- or better required in ENGE prerequisite 1114. Co: MATH 2214. (3H,3C). This course is cross-listed with ESM 2074 AOE 2104 INTRO TO AEROSPACE ENGINEERING An overview of aerospace engineering from a design perspective; introductory aerodynamics, lift, drag, and the standard atmosphere; aircraft performance, stability, and control; propulsion; structures; rocket and spacecraft trajectories and orbits. Pre: ENGE 1114, PHYS 2305. (3H,3C) AOE 2974 INDEPENDENT STUDY Variable credit course. AOE 2984 SPECIAL STUDY Variable credit course. AOE 2994 UNDERGRADUATE RESEARCH Variable credit course. AOE 3014 AERO/HYDRODYNAMICS Two-dimensional potential flow, stream function, velocity potential, flow superposition, circulation and lift, airfoil characteristics. Two-dimensional airfoil theory and panel methods. Three-dimensional lifting line theory and vortex lattice solutions for finite wings. This course is normally taught in the fall semester. Pre: ESM 2304, AOE 3104 or AOE 3204. (3H,3C) This course is presently taught by:
AOE 3024 THIN-WALLED STRUCTURES Review of mechanics of materials. Stresses in stiffened shell beams. Deformation analysis by energy methods. Multicell beams. Introduction to the matrix stiffness method including truss and beam elements. This course is taught in the fall semester. Pre: ESM 2104,ESM 2204. (3H,3C) AOE 3034 VEHICLE VIBRATION AND CONTROL Free and forced motions of first order system. Free and forced motions of second order systems both undamped and damped. Frequency and time response. Introduction to control, transfer functions, block diagrams, and closed loop system characteristics. Higher order systems. This course is normally taught in the fall semester. It involves three hours of classes per week and is worth three semester credits. Pre: MATH 2214,ESM 2304. (3H,3C) This course is presently taught by:
AOE 3044 BOUNDARY LAYER AND HEAT TRANSFER Concepts of viscous flows and physical properties equations of laminar motion with heat and mass transfer; exact and approximate solutions; finite-difference methods; transition to turbulence; analysis in turbulent flows. Conduction and convective heat transfer. This course is taught in the fall semester. Pre: AOE 3014,ME 3134,MATH 4564.(3H 3C) AOE 3054 EXPERIMENTAL METHODS Principles of measurement and design of measurement systems; standards, accuracy, uncertainty and statistical concepts. Detectors, transducers, and instruments for aerospace and ocean engineering. Signal conditioning systems and readout devices; digital data acquisition principles. Laboratory experiments in instrumentation and transducers, structural analysis; and subsonic aerodynamics. This course is taught in the spring semester. Pre: AOE 3014, AOE 3024, AOE 3034.(1H,6L,3C) This course is presently taught by:
AOE 3094 AOE MATERIALS (MSE 3094) Materials in Aero. and Oceanic Sys. (MSE 3094) This course introduces the non-MSE student to the science and engineering of materials, with specific emphasis on their role in establishing the selection, design, and performance characteristics of materials for aerospace structures. The behavior of metals, ceramics, polymers, and composites are introduced to address the wide range of material requirements inherent to these applications. This course is taught in Spring and Summer semester. Pre: CHEM 1074, Co: ESM 2204, PHYS 2305. (3H,3C). AOE 3104 AIRCRAFT PERFORMANCE Performance of aircraft. Analysis of fluid statics and dynamics affecting aircraft performance. Hydrostatics of the standard atmosphere and development of basic equations of fluid dynamics. Lift and drag. Aircraft static performance. Rates of climb, endurance, range, take off and landing, and turn performance. This course is taught in the spring and summer semester.Must have a C- or better in pre-requisites ESM 2104 and co-requisite ESM 2304. Pre:ESM 2104, Co:ESM 2304 This course is presently taught by:
AOE 3114 COMPRESSIBLE AERODYNAMICS Inviscid, compressible gas dynamics. Continuity, momentum and energy equations, shock waves, Prandtl-Meyer expansions. One-dimensional steady and unsteady flow, Rayleigh line, Fanno line, Shock Tubes. Method of Characteristics, supersonic thin airfoil theory and conical flow. This course is taught in the spring semester. Must have C- or better in Prerequisites. Pre: AOE 3014 and ME 3134. (3H 3C) This course is presently taught by:
AOE 3124 AEROSPACE STRUCTURES Aspects of structural analysis pertinent to the design of flight vehicles: aeroelastic divergence, environmental loads, aerospace materials, buckling of thinwalled compression members, and introduction to matrix structural dynamics. This course is taught in the spring semester. Must have C- in Prerequisite. Pre: AOE 3024 AOE 3134 STABILITY AND CONTROL Equations of vehicle motion. Linearized analysis. Estimation of stability derivatives, longitudinal and lateral-directional static stability, and control requirements. Dynamic characteristics including stability and mode shapes. This course is taught in the spring semester. Must have C- in prerequisite. Pre: AOE 3034 (3H 3C) This course is presently taught by:
AOE 3204 NAVAL ARCHITECTURE Buoyancy of ocean vehicles. Hull geometry, line drawings, coefficients of form. Hydrostatic calculations, development of a computer program for hydrostatic analysis. Review and calculations. Intact and damaged stability of ocean vehicles. Large angle stability. Stability criteria. Viscocity. Stress in a fluid. Basic laws of fluid dynamics. Must have a C- or better in pre-requisites ESM 2104 and MATH 2224. Pre: ESM 2104, MATH 2224. Co: ESM 2304. (3H,3C). AOE 3224 OCEAN STRUCTURES Overview of surface ship, submarine and offshore structural systems, materials and loadings. Application of beam and plate bending and buckling theories. Static and matrix structural dynamic analysis of stresses and deflections. Stress concentration. This course is taught in the spring semester. Must have C- in Prerequisite. Pre: AOE 3024.(3H 3C) AOE 3264 RESISTANCE & PROPULSION OF SHIPS Methods of estimating ship resistance; propulsion devices and their efficiencies; Resistance components; Froude scaling of model test data; Methodical series; Planing hulls; Propellers; Waterjets; Propeller design; Computer methods; Advanced marine vehicles. Pre: 3204, 3014.(3H 3C) AOE 4004 Computer-Aided Control System Design Computer-aided design and analysis of control systems for high-order linear systems. Stability and performance design criteria. Root locus, PID, lead/lag, and pole-placement design methods. Introduction to modern state-space modeling methods. Design problems involving aircraft, ship, space, and ground-vehicle systems. Pre: 3034. (3H,3C) This course is presently taught by:
AOE 4024 AN INTRODUCTION TO THE FINITE ELEMENT METHOD (ESM 4734) The finite element method is introduced as a numerical method of solving the ordinary and partial differential equations arising in fluid flow, heat transfer, and solid and structural mechanics. The classes of problems considered include those described by the second-order and fourth-order ordinary differential equations and second-order partial differential equations. Both theory and applications of the method to problems in various fields of engineering and applied sciences will be studied. Pre:AOE 2074 and MATH 2214 (3H 3C) AOE 4034 COMPUTATIONAL STRUCTURAL ANALYSIS Static and vibratory response of framed structures. The matrix eigenvalue problem for buckling and free vibrations. Static response of laminated composite plates by the finite element method. Pre AOE 3124 or AOE 3224.(3H 3C) AOE 4054 STABILITY OF STRUCTURES (CE 4444) (ESM 4444) Introduction to the methods of static structural stability analysis and their applications. Buckling of columns and frames. Energy method and approximate solutions. Elastic and inelastic behavior. Torsional and lateral buckling. Use of stability as a structural design criterion. This course is normally taught in the spring semesters. Pre: AOE 3024,CE 3404.(3H 3C) AOE 4064 FLUID FLOWS IN NATURE Course designed to build upon and broaden a basic traditional engineering knowledge of fluid flows into areas concerning a variety of natural occurrences and phenomena that involve fluid motions in important ways. Drag sessile systems and motile animals, gliding and soaring, flying and swimming, internal flows in organisms, low Reynolds number flows, fluid-fluid interfaces, unsteady flows in nature and wind engineering.Must have C- in Prerequiste Pre: AOE 3014 or CEE 3304 or ESM 3024 or ME 3404.(3H 3C) This course is presently taught by:
AOE 4065/66 DESIGN Analysis and design of various space, aeronautical and marine vehicles and systems. AOE 4065 is normally taught in the fall semester and AOE 4066 in the spring semester. It involves two hours of classes and three hours of lab per week and is worth three semester credits. X-Grade allowed. Senior standing required. (2H,3L,3C) This course is presently taught by:
AOE 4084 ENGINEERING DESIGN OPTIMIZATION (ESM 4084) Use of mathematical programming methods for engineering design optimization including linear programming, penalty function methods, and gradient projection methods. Applications to minimum weight design, open-loop optimum control, machine design, and appropriate design problems from other engineering disciplines. Pre: MATH 2214 (3H 3C) AOE 4114 APPLIED COMPUTATIONAL AERODYNAMICS Development of computational methods for application to wing aerodynamic problems. Incompressible airfoil codes. Panel methods and vortex lattice methods. Finite difference techniques. Transonic and supersonic applications. Pre: AOE 3044 and AOE 3114. (3H 3C). This course is presently taught by:
AOE 4124 CONFIGURATION AERODYNAMICS Aerodynamic design of flight vehicles, with emphasis on nonlinear flowfields and configuration concepts. aerodynamic analysis and design for transonic, supersonic, hypersonic flows, and low speed high alpha flight. Includes case studies of clasic configurations and aerodynamic design papers. Pre: 3014,3114. (3H,3C) This course is presently taught by:
AOE 4134 ASTROMECHANICS Application of Newton's Laws to the dynamics of spaceflight. Two-body problem, Kepler's Laws, energy and time relations, orbit specification and determination. Orbital maneuver and transfer, patched conic approximations, relative motion, and elements of optimal maneuvering. This course is taught in the fall semester. Pre: ESM 2304 (3H 3C). If students are planning to take "Spacecraft Dyn & Control" in the Spring semester, they must take AOE 4134 in the previous Fall semester. This course is presently taught by:
AOE 4140 SPACECRAFT DYNAMICS AND CONTROL Space missions and how pointing requirements affect attitude control systems. Rotational kinematics and attitude determination algorithms. Modeling and analysis of the attitude dynamics of space vehicles. Rigid body dynamics, effects of energy dissipation. Gravity gradient, spin, and dual spin stabilization. Rotational maneuvers. Environmental torques. Impacts of attitude stabilization techniques on mission performance. This course is offered for both undergraduate and graduate credit Pre: AOE 4134 and AOE 3034. (3H, 3C). This course is presently taught by:
AOE 4144 AIRCRAFT AUTOMATIC FLIGHT CONTROL Introduction and history of aircraft automatic flight control. Mathematical models of linear systems elements. Bode amplitude and phase plots of longitudinal and lateral control system analysis. Inputs and system performance assessment. Multi-loop flight control systems. Applications to representative aircraft. AOE 3134 and MATH 4564 are prerequisites. (3H 3C) AOE 4154 AEROSPACE ENGINEERING LABORATORY Wind tunnel laboratory experiments related to subsonic and supersonic aerodynamics. Continuation of AOE 3054 for Aerospace Engineering students. Writing of technical laboratory reports; design of experiments. This course is taught in the fall semester. It involves three hours of lab per week and is worth one semester credit. Pre:AOE 3054, AOE 3114, AOE 3124,and AOE 3134. (3L,1C) This course is presently taught by:
AOE 4164 SPECIAL TOPICS IN VEHHCLE PERFORMANCE Three dimensional point-mass equations of motion over flat and spherical Earth. Aerodynamic and propulsive modeling. Numerical integration of equations of motion. Analytic approximations and solutions. Energy state models. Advanced topics. Pre: 3104, 3134, (3H,3C). AOE 4174 SPACECRAFT PROPULSION Spacecraft propulsion systems and their applications in orbital, interplanetary, and interstellar flight. Rocket propulsion fundamentals; advanced mission analysis; physics and engineering of chemical rockets, electrical thrusters, and propellantless systems (tethers and sails); spacecraft integration issues. Pre: 4234 or ME 4234. (3H,3C) AOE 4174 (ME 4174) SPACECRAFT PROPULSION Spacecraft propulsion systems and their applications in orbital, interplanetary, and interstellar flight. Rocket propulsion fundamentals; advanced mission analysis; physics and engineering of chemical rockets, electrical thrusters, and propellantless systems (tethers and sails); spacecraft integration issues. Pre: 4234 or ME 4234. (3H,3C) AOE 4184 DESIGN AND OPTIMIZATIONOF COMPOSITE STRUCTURES (ESM 4184) Design aspects of laminate constitutive relations, coupling and decoupling of in-plane and out-of-plane elastic response. Tailoring of laminated composite materials to meet design requirements on stiffness and strength through the use of graphical and numerical optimization techniques. Introduction to integer programming: branch-and-bound method and genetic algorithms. Stacking sequence design of laminated composite beams and plates via integer programming. Pre: AOE 3024, CE 3404, or ESM 3084. (3H 3C) AOE 4204 OCEAN ACOUSTICS Basic problems and techniques of underwater acoustics; sonar equations, sound propagation in the ocean, generation and detection of underwater sound, background and self noise, reverberation, target strength, applications. Pre: MATH 4564. (3H 3C) AOE 4214 OCEAN WAVE MECHANICS Introduction to theory of wave motion in different water depth regions, including wave generation and propagation. Description of wave statistics and spectral representation for realistic ocean conditions. Wave forces on stationary structures. Nonlinear waves, wave properties, and methods of analysis. This course is taught in the Spring semester. Pre: AOE 3014 and MATH 4564. (3H 3C) AOE 4224 PROBABILISTIC ANALYSIS OF OCEAN SYSTEMS Representation of random phenomena for ocean systems (waves, vehicle motions, wave-induced loads). Concepts of correlation (for vector processes), power spectra, probability density, envelope processes. Responses of linear dynamic systems, statistics of responses, accidence probability, extremes. Extension to nonlinear systems. Pre: 3234, MATH 4564. (3H,3C) AOE 4234 AEROSPACE PROPULSION SYSTEMS (ME 4234) Design principles and performance analysis of atmospheric and space propulsion engines and systems. Application of thermodynamics, compressible fluid flow and combustion fundamentals to the design of gas turbine and rocket engines and components, including inlets, turbomachines, combustors, and nozzles. Matching of propulsion system to vehicle requirements. This course is normally taught in the fall semester. Pre: (AOE 3114, and ME 3134) or ME 3106 and ME 3404 (3H 3C). AOE 4244 MARINE ENGINEERING (ME 4244) Analysis of major ship propulsion devices (propellers, water jets). Integration with propulsion plant and machinery. Characteristics of marine steam turbines, nuclear power plants, marine diesels, and marine gas turbines. Shafting system, bearings, and vibration problems. This course is normally taught in the Spring semester. Pre:AOE 3204, ME 3134. (3H 3C). AOE 4254 OCEAN ENGINEERING LABORATORY Continuation of AOE 3054 for Ocean Engineering students using facilities and instrumentation pertinent to ocean engineering. Writing of technical laboratory reports; design of experiments. This course is normally taught in the fall semester. It involves one hour of lecture and two hours of lab per week and is worth one semester credit. Pre: AOE 3054, AOE 3264. (1H,2L,1C) AOE 4274 COMPUTER-BASED DESIGN OF OCEAN STRUCTURES Computer-based structural models for combined finite element analysis, limit state analysis and optimization. Torsion of thin-walled structures. Buckling of stiffened panels and cylinders. Eigenvalue methods for buckling and vibration. Incremental plastic collapse; other progressive collapse. Ultimate strength of large structural modules. This course is normally taught in the spring semester. Pre: AOE 3224 (3H 3C). AOE 4334 SHIP DYNAMICS Analysis of motions of rigid body vehicles in water, including influence of added mass and buoyancy. Seakeeping motion responses in waves, wave-induced structural loads, random response analysis via spectral analysis, and extreme response analysis. Introduction to hydroelasticity and maneuvering. Pre: 3014, 3034, 4214, MATH 4564. (3H,3C) AOE 4404 APPLIED NUMERICAL METHODS (MATH 4404) Interpolation and approximation, numerical integration, solution of equations, matrices and eigenvalues, systems of equations, approximate solution of ordinary and partial differential equations. Applications to physical problems. Partially duplicates MATH 4554 and MATH 3414. Mathematics majors or minors cannot take both AOE/MATH 4404 and MATH 3414. Pre: MATH4564 and ESM 3074. (3H 3C). AOE 4704 INTRODUCTION TO HEAT TRANSFER AOE 4754 NAVAL ARCHITECTURE (ME 4754) AOE 4974 INDEPENDENT STUDY Variable credit course. AOE 4984 SPECIAL STUDY Variable credit course. AOE 4994 UNDERGRADUATE RESEARCH Variable credit course. AOE 5024 VEHICLE STRUCTURES Exact and approximate methods for analysis and design of aerospace and marine structures. Stresses, strains, constitutive equations, boundary value problem, and two dimensional elasticity; torsion; variational methods; virtual work and energy principles; structural mechanics theorems; traditional approximate methods; and laminated plates. It involves three hours of classes per week and is worth three semester credits. AOE 5034 VEHICLE STRUCTURAL DYNAMICS Equations of motion for and dynamically response of continuous and multiple-degree-of-freedom vehicle structures. Review of single-degree-of-freedom free and forced vibrations. Force equilibrium, energy methods, and finite element modeling of restrained and unrestrained dynamical structures. Dynamic response of continuous and multi-degree of freedom systems by modal analysis and by direct integration. Random vibrations. It involves three hours of classes per week and is worth three semester credits. AOE 5024 is a prerequisite. AOE 5044 DYNAMIC STABILITY OF STRUCTURES (CE 5444,ESM 5444) Modern structural stability analysis; static and dynamic instability; conservative and non conservative systems; multiple loads; and Liapunov stability analysis. Applications to columns, rotating shafts, pipes conveying fluid, and airplane panels. This course is normally taught in the fall and spring semesters. It involves three hours of classes per week and is worth three semester credits. ESM 4074 or AOE 3034 is a prerequisite. AOE 5054 ELASTIC STABILITY (ESM 5454) (CE 5454) Stability of elastic structural components under conservative loads; precise definition of stability; energy approaches; Rayleigh-Ritz and Galerkin methods; and applications to column, arches, plates, and shells. This course is normally taught in the fall semester. It involves three hours of classes per week and is worth three semester credits. ESM 3084 or CE 3404 or AOE 3124 is a prerequisite. AOE 5064 STRUCTURAL OPTIMIZATION (ESM 5064) Structural optimization via calculus of variations. Application of techniques of mathematical programming to optimize trusses, beams, frames, columns, and other structures. Sensitivity calculations of structural response. Approximation techniques and dual and optimality criteria methods. A background in optimization is necessary. It involves three hours of classes per week and is worth three semester credits. AOE 5074 COMPUTER-AIDED DESIGN OF VEHICLE STRUCTURES Methodology of rationally-based,computer-aided optimum structural design. Reliability aspects. Advanced aspects of finite element analysis for large thin wall structures. Modes of failure at member, multi-member and overall level for large thin wall structures. Other limit states. Optimization methods. Principles of computer-aided-design and sample applications. This course is normally taught in the fall semester. It involves three hours of classes per week and is worth three semester credits. AOE 5025 and ESM 5114 are prerequisites. This course is presently taught by:
AOE 5084 SUBMARINE DESIGN Application of fundamental naval architecture and engineering principles to the concept design of modern (nuclear and diesel/Air Independent Propulsion) submarines. Emphasis on operational requirements and arrangements as they impact ship weight balance and stability. Students develop a balanced concept design as a part of the course. AOE 5304 or a Naval Architecture background is a prerequisite. AOE 5104 ADVANCED AERO AND HYDRODYNAMICS Vector analysis concepts; fluid stress and strain, kinematics of fluid flows including vorticity; dynamics of inviscid incompressible flow; and potential flow theory with applications to lifting and non lifting bodies. It involves three hours of classes per week and is worth three semester credits. This course is presently taught by:
AOE 5114 HIGH SPEED AERODYNAMICS Aerodynamic phenomena and shock waves. Linearized subsonic and supersonic flow past planar surfaces and bodies of revolution. Theory of transonic aerodynamics including study of mixed flow. Similarity laws. Mathematical representation of inviscid compressible flows in equilibrium. Potential function, stream function, rotationality and geometric considerations. Method of characteristics applied to hyperbolic flow fields. Discussion of techniques for solution of elliptic flow fields. It involves three hours of classes per week and is worth three semester credits. AOE 3114 is a prerequisite. AOE 5135 VEHICLE PROPULSION (ME 5135) Aerothermodynamics of gas turbines and rockets: cycle analysis of turbojets, turbofans, prop fans, and turbo props. Analysis of ramjets and scramjets. Performance of inlets, combustors,, and nozzles. Elementary theory of turbomachinery. Liquid and solid propellant chemical rockets. Electrostatic, Electromagnetic, and electrothermal propulsion. Integrated rocket-ramjet. Fuels and propulsion systems for future transportation systems. It involves three hours of classes per week and is worth three semester credits. AOE 3114, ME 3134 are the prerequisites. AOE 5136 VEHICLE PROPULSION (ME 5136) Aerothermodynamics of gas turbines and rockets: cycle analysis of turbojets, turbofans, prop fans, and turbo props. Analysis of ramjets and scramjets. Performance of inlets, combustors,, and nozzles. Elementary theory of turbomachinery. Liquid and solid propellant chemical rockets. Electrostatic, Electromagnetic, and electrothermal propulsion. Integrated rocket-ramjet. Fuels and propulsion systems for future transportation systems. It involves three hours of classes per week and is worth three semester credits. AOE 3114 is a prerequisite. AOE 5144 BOUNDARY LAYER THEORY AND HEAT TRANSFER Conservation equations and constitutive relations, exact Navier Stokes solution; boundary layer approximation and special solutions; approximate methods; compressibility and heat and mass transfer effects; and numerical methods and simple turbulence models. It involves three hours of classes per week and is worth three semester credits. AOE 5104 is a prerequisite. AOE 5214 AIRCRAFT DYNAMICS AND CONTROL General equations of aero/hydrodynamic vehicular motion including the affects of flexibility and changing mass. Consideration of buoyant, aerodynamic, gravitational and thrust forces, jet damping, thrust offset, and rotating machinery contributions. Reduction of equations to linearized form, aero/hydrodynamic stability derivatives. Stability and response characteristics. Application of classical control theory to aircraft control. It involves three hours of classes per week and is worth three semester credits. AOE 3134 is a prerequisite. This course is presently taught by:
AOE 5224 LINEAR OPTIMAL CONTROL SYSTEMS State variable and transfer function description of linear systems relation of canonical matrices to state models; transition matrices; controllability,observability, stability, Lunberger observers, optimal linear feedback control laws, kalman filtering, optimal solutions to deterministis and stochastic linear quadratic gaussian regulators. It involves three hours of classes per week and is worth three semester credits. MATH 4531 is a prerequisite. AOE 5234 ORBITAL MECHANICS Lagrange's equations of motion, two-body problem, conic sections, Kepler's laws, orbit determination. Multi-body problems and integrals of motion. Fundamentals of perturbation theory, variation of parameters, and lagrange's planetary equations. Regularization and alternative formulations of equations of motion. It involves three hours of classes per week and is worth three semester credits. AOE 4134 is a prerequisite. AOE 5244 OPTIMIZATION TECHNIQUES Ordinary minimum problems with constraints. The classical multiplier method, descent methods, and quasi-Newton's methods. Optimal control and the maximum principle. Second order necessary conditions. Singular control. Continuous gradient methods, conjugate gradients. It involves three hours of classes per week and is worth three semester credits. AOE 3134 and MATH 4564 are prerequisites. AOE 5304 ADVANCED NAVAL ARCHITECTURE Engineering analysis methods for evaluating the hydrostatic, hydrodynamic, and structural characteristics of surface ships and submarines. Methods employed in ship design include analytical, statistical and experimental approaches. Both hull and propulsor analysis techniques are covered. It involves three hours of classes per week and is worth three semester credits. AOE 4754 is a prerequisite. AOE 5305 MARINE ENGINEERING In depth analysis and design of major ship propulsion system and machinery components. 5305: Propellers, Shafting, and Gearing. Introduction to boilers, steam, and gas turbines, nuclear power plants and Diesels. 5306: Advanced study of Diesels and gas turbines. Internal combustion engines. Shipboard HV AC, pump and motor systems. Cost estimation. It involves three hours of classes per week and is worth three semester credits. ME 3134 is a prerequisite. AOE 5306 MARINE ENGINEERING In depth analysis and design of major ship propulsion system and machinery components. 5305: Propellers, Shafting, and Gearing. Introduction to boilers, steam, and gas turbines, nuclear power plants and Diesels. 5306: Advanced study of Diesels and gas turbines. Internal combustion engines. Shipboard HV AC, pump and motor systems. Cost estimation. It involves three hours of classes per week and is worth three semester credits. ME 3134 is a prerequisite. AOE 5314 NAVAL SHIP SYSTEM DESIGN Overview of the ship design process, and insight into the major factors which influence the technical trade-offs governing the synthesis of ship design. The course is primarily directed at systems engineers, equipment engineers(hull, machinery and combat systems), and technical managers who interphase with the ship design community. The course is also of value to practicing naval architects who desire a broad perspective into the ship integration process (NAVSEA site only). This course is normally taught in the fall and spring semesters. It involves three hours of classes per week and is worth three semester credits. An Undergraduate engineering degree is a prerequisite. AOE 5334 ADVANCED SHIP DYNAMICS Derivation of the equations of motion of the ship; waves and wave forces on the structures, description of wave statistics and spectral representation in a siven sea state; ship response in regular waves; ship response in random waves. It involves three hours of classes per week and is worth three semester credits. AOE 3234 and MATH 4564 are prerequisites. AOE 5344 NONLINEAR CONTROL OF MECHANICAL SYSTEMS Methods of nonlinear control, emphasizing techniques applicable to mechanical systems. Nonlinear system theory and stability analysis. Nonlinear controllability and observability. Input-output properties. Passive and dissipative systems and stability of interconnected systems. Common nonlinear control design techniques: feedback linearization; sliding mode control; adaptive control. Techniques for mechanical systems: potential shaping; kinetic shaping. Emphasis on applications to vehicle control. Pre 4004. (3H,3C). AOE 5374 RATIONALLY-BASED DESIGN OF OCEAN STRUCTURES Methodology of rationally-based optimum structural design of ships based on explicit calculation of failure loads. Torsion of thin-wall sections. Ultimate limit states of stiffened cylinders. Structural optimization of stiffened panels. Computer programs for ultimate strength analysis and structural design of ships, submarines and offshore platforms. Sample applications. Pre: 5074. (3H,3C) This course is presently taught by:
AOE 5454 ADVANCED AEROSPACE AND OCEAN ENGINEERING INSTRUMENTATION An advanced treatment of the principles of measurement systems; standards, accuracy, uncertainty and statistical concepts, and signal processing. Detectors, transducers, and instruments for aerospace and ocean engineering. Hot-wire and laser anemometry. Signal conditioning systems and readout devices, digital data acquisition principles. Electronics and electrical test instruments. Case studies of practical instrumentation systems. It involves three hours of classes per week and is worth three semester credits. AOE 3014 and AOE 3034 are prerequisites. This course is presently taught by:
AOE 5894 FINAL EXAMINATION PASS/FAIL ONLY. It involves three hours of classes per week and is worth three semester credits. AOE 5904 PROJECT AND REPORT Variable credit course. AOE 5944 SEMINAR Discussion of current research topics in Aerospace and Ocean Engineering by local and visiting scholars. This course cannot be used to fulfill the minimum requirements of 30 hours toward the Master's Degree or 90 hours toward the Ph.D. Degree in Aerospace and Ocean Engineering. May be repeated. Pass/Fail only. (1H,1C). AOE 5974 INDEPENDENT STUDY PASS/FAIL ONLY. Variable credit course. AOE 5984 SPECIAL STUDY Variable credit course. This course is presently taught by:
AOE 5994 RESEARCH AND THESIS Variable credit course. AOE 6024 AEROELASTICITY Discussion of aeroelastic phenomena including flutter, divergence, control surface effectiveness, and lift redistribution; and introduction to traditional and modern methods of analysis and remedies for aeroelastic problems of flight vehicles. It involves three hours of classes per week and is worth three semester credits. AOE 5104,5034,5214 are prerequisites. AOE 6114 TRANSONIC AERODYNAMICS Basic features of transonic flows, similarity methods, and hodograph methods. Major emphasis on finite difference procedures including type dependent relaxation procedures for potential flows and time asymptotic Euler solutions. Grid generation methods, inverse design procedures, unsteady flows,, wind tunnel/ wall interference, and shock wave/boundary layer interactions. It involves three hours of classes per week and is worth three semester credits. AOE 3114, AOE 4404, and AOE 5144 are prerequisites. AOE 6124 HYPERSONIC AERODYNAMICS Theory of inviscid hypersonic flows; blunt body and Newtonian aerodynamics; nonlinear small disturbance theory; and approximate methods and comparisons with experiment. Viscous hypersonic flow theory; skin friction and heat transfer on blunt and slender bodies; and vorticity, entropy layer, and viscous-inviscid inter-action effects. It involves three hours of classes per week and is worth three semester credits. AOE 5114 is a prerequisite. AOE 6145 COMPUTATIONAL FLUID DYNAMICS Computational methods for incompressible, compressible, and viscous fluid flows. Theoretical and numerical developments for wave equation, heat equation, Poisson's equation, and Burgers equation. Application to inviscid subsonic, transonic, and supersonic flows, viscous boundary layer, Napier-Stokes, thin layer equations, and grid generation techniques. It involves three hours of classes per week and is worth three semester credits. AOE 3114, AOE 4404, and AOE 5144 are prerequisites. AOE 6146 COMPUTATIONAL FLUID DYNAMICS Computational methods for incompressible, compressible, and viscous fluid flows. Theoretical and numerical developments for wave equation, heat equation, Poisson's equation, and Burgers equation. Application to inviscid subsonic, transonic, and supersonic flows, viscous boundary layer, Napier-Stokes, thin layer equations, and grid generation techniques. It involves three hours of classes per week and is worth three semester credits. AOE 3114, AOE 4404, and AOE 5144 are prerequisites. AOE 6154 TURBULENT SHEAR FLOW Advanced treatment of physical phenomena of turbulent boundary layer, jets, wakes, and duct flows; coherent structures; entrainment, bursting, vortex dynamics; and unsteady, wall, and free-stream turbulence effects. It involves three hours of classes per week and is worth three semester credits. AOE 5154 is a prerequisite. AOE 6164 UNSTEADY FLUID DYNAMICS Analytical and mathematical methods for two- and three-dimensional unsteady incompressible and compressible potential flows about wings, bodies, and hydrofoils. Nonlinear aspects of transonic flow. Effects of cavitation. It involves three hours of classes per week and is worth three semester credits. AOE 5104 is a prerequisite. AOE 6214 TOPICS IN MECHANICS AND CONTROL OF FLIGHT Special topics in important areas related to the mechanics and control of flight. It involves three hours of classes per week and is worth three semester credits. AOE 5214 is a prerequisite. AOE 6234 SPACEFLIGHT DYNAMICS Orbital operations including transfer, intercept and rendezvous, Kepler, and Lambert(Gauss) problems, and numerical considerations. Attitude dynamics, motion about the center of mass, gravity gradient, and stability. Methods of attitude control both active and passive. It involves three hours of classes per week and is worth three semester credits. AOE 4134 and AOE 5234 are prerequisites. AOE 6244 ADVANCED OPTIMIZATION TECHNIQUES Neighboring optimal concept and guidance applications. Singular perturbation techniques in optimal control. Applications to atmospheric flight; energy modeling, elements in game theory. Pursuit/evasion games with air combat applications. It involves three hours of classes per week and is worth three semester credits. AOE 5244 is a prerequisite. AOE 6254 INTELLIGENT CONTROL Intelligent control design of nonlinear systems, autonomous vehicles, including unmanned aerial vehicles, autonomous underwater vehicles, and spacecraft. Review of methods for stability analysis and robust control. Adaptive control design methodologies. Robustness of adaptive systems. Vision based sensors. Multivariable adaptive control. Output feedback methods. AOE 6314 DYNAMICS OF THE OCEAN Large scale oceanic motions. Geostrophic and Ekman flows. Ocean circulation theories of Munk, Sverdrup, and Stommel. Numerical models. Linear and nonlinear surface waves, wave generation by wind, internal waves, and tides. It involves three hours of classes per week and is worth three semester credits. AOE 5104 is a prerequisite. AOE 6984 SPECIAL STUDY Variable credit course. AOE 7994 RESEARCH AND DISSERTATION Variable credit course. AOE4334 SHIP DYNAMICS Analysis of motions of rigid body vehicles in water, including influence of added mass and buoyancy. Seakeeping motion responses in waves, wave-induced structural loads, random response analysis via spectral analysis, and extreme response analysis. Introduction to hydroelasticity and maneuvering. Pre: 3014, 3034, 4214, MATH 4564. (3H,3C) |
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