Nonlinear systems stability phase plane analysis. Linear systems of equations including nondiagonable case. AMATH 568 Advanced Methods for Ordinary Differential Equations (5) Survey of practical solution techniques for ordinary differential equations. Prerequisite: AMATH 351 or MATH 307 MATH 324, 327 recommended: AMATH 402 and AMATH 403 or MATH 428 and 429. Space-time problems with examples from elasticity, electromagnetics, and fluid mechanics. Legendre transformation, Hamiltonian systems. AMATH 507 Calculus of Variations (5) Necessary and sufficient conditions for a weak and strong extremum. Offered: jointly with ATM S 505/OCEAN 511 A odd years. Prerequisite: AMATH 403 or permission of instructor. Dabiri AA507 Aerodynamics of Viscous Fluids I Introduction to viscous flow exact solutions of the…ĪMATH 505 Introduction to Fluid Dynamics (4) Eulerian equations for mass-motion Navier-Stokes equation for viscous fluids, Cartesion tensors, stress-strain relations Kelvin’ s theorem, vortex dynamics potential flows, flows with high-low Reynolds numbers boundary layers, introduction to singular perturbation techniques water waves linear instability theory. Offered: Spring (even years) Instructor: M. Kurosaka AA 506: Vortex Dominated Flows Examines the vorticity equation, baroclinic torque, solenoidality, Biot-Savart’s formula, diffusion of vorticity, Burger vortex, system of vortices, Kelvin-Helmholtz instability, effects of density, shear and surface tension on instability, swirling flows, and other special topics. Fried (ME) AA 504: Fluid Mechanics Reviews the fundamentals with application to external and internal flows supersonic flow, 1D and Quasi-1D, steady and unsteady flow, oblique shocks and expansion waves, linearized flow, 2D flow, method of characteristics and transonic and hypersonic flow. Offered: Autumn (jointly with ME 503) Instructor: D. Offered: Autumn (even years) AA 503: Continuum Mechanics Reviews concepts of motion, stress, energy for a general continuum conservation of mass, momentum, and energy and the second law constitutive equations for linear/nonlinear elastic, viscous/inviscid fluids, and general materials and examples/solutions for solid/fluid materials. The following hex records are written to the file Offered by the Department of Aeronautics and Astronautics AA501 Physical Gasdynamics I Equilibrium kinetic theory chemical thermodynamics thermodynamic properties derived from quantum statistical mechanics reacting gas mixtures applications to real gas flows and gas dynamics. Public void Execute ( IIntelHexStreamWriter writer, MemoryStream stream ) The following demonstrates the use of the IntelHexStreamWriter class. RecordType: EndOfFile RecordLength: 0x00 Offset: 0x0000 Data: CheckSum: 0xFF Using the IntelHexStreamWriter RecordType: ExtendedSegmentAddress RecordLength: 0x02 Offset: 0x0000 Data: 30-00 CheckSum: 0xCCĮxtendedInstructionPointer: 0x00000000 UpperLinearBaseAddress: 0x0000 UpperSegmentBaseAddress: 0x3000 SegmentAddress: CodeSegment: 0x0000 InstructionPointer: 0x0000 RecordType: Data RecordLength: 0x06 Offset: 0x0D00 Data: 08-95-F8-94-FF-CF CheckSum: 0xF6
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