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225. Heal Transfer (3). Conduction, convection, and radiation.
One and two dimensional steady-state conduction, LaPlace's
equation, numerical techniques. Transient heat transfer.
Heisler charts, multiple-dimensional systems, boundary layers,
Reynold's analogy. Forced and natural convection radiation heat
transter, Kirchoff's and Wien's laws, radiation shields.
227. Advanced Thermodynamics (3). Review of classical
thermodynamics, Maxwell relations, equations of state, nonIdeal
gases, experimental methods. The molecular theory of gases,
Clausius and Van der Waals equations of state, velocity distribution.
LaGrange's method, the principle of equipartition. MaxwellBoltzmann
statistics, micro and macro-states. Quantum statistics
based on the Bose-Einstein, Maxwell-Boltzmann, and FermiDirac
statistics.
229; Advanced Gas Dynamics (3). ReVieW 6f sUpersohic
flow. Vibrational and chemical rate processes, nonequilibrium
chemical rate equations, rate equations for dissociation and
recombination. Flow with vibrational or chemical nonequilibrium.
Nonequilibrium kinetic theory; evaluation of collision cross-sections.
Flow with transiational nonequilibrium. Radiative transfer in
gases, and approximate solutions of the equation of radiative
transfer.
230. Alrcrall Slabilily and Controf (3). A first-year graduate
course covering analytical tools, system theory, reference
frames, and transformations, equations of unsteady motion, longitudinal
aerodynamics, lateral aerodynamics, stability of steady
flight, and response to controi actuation. All stability derivatives
will be discussed In detaii, and examples and problems based on
actual airplanes will be used.
231. Structural Dynamics (3). Review of the principles of
mechanics, virtual work, generalized force, potential energy, conservative
systems, stabiiity. Eiastic beams and frames, plates,
and shells. Von Karman theory, shear deformation, geometry and
equilibrium of shells. The theory of vibrations, undamped and
damped systems, orthogonality properties. Vibrations of aircraft
structures, coupling with the aerodynamic equations, flutter.
Engineering-Edwards Air Force Base Program
267
| Title | 1985-86 General Catalog |
| Creator | California State University, Fresno |
| Format | PDF Document |
| Date of publication | 1985-04 |
| Subjects | California State University, Fresno. Curricula. Catalogs |
| Object type | Document |
| Location | Fresno, California |
| Language | eng |
| Title | Page 267 |
| Full Text Search | 225. Heal Transfer (3). Conduction, convection, and radiation. One and two dimensional steady-state conduction, LaPlace's equation, numerical techniques. Transient heat transfer. Heisler charts, multiple-dimensional systems, boundary layers, Reynold's analogy. Forced and natural convection radiation heat transter, Kirchoff's and Wien's laws, radiation shields. 227. Advanced Thermodynamics (3). Review of classical thermodynamics, Maxwell relations, equations of state, nonIdeal gases, experimental methods. The molecular theory of gases, Clausius and Van der Waals equations of state, velocity distribution. LaGrange's method, the principle of equipartition. MaxwellBoltzmann statistics, micro and macro-states. Quantum statistics based on the Bose-Einstein, Maxwell-Boltzmann, and FermiDirac statistics. 229; Advanced Gas Dynamics (3). ReVieW 6f sUpersohic flow. Vibrational and chemical rate processes, nonequilibrium chemical rate equations, rate equations for dissociation and recombination. Flow with vibrational or chemical nonequilibrium. Nonequilibrium kinetic theory; evaluation of collision cross-sections. Flow with transiational nonequilibrium. Radiative transfer in gases, and approximate solutions of the equation of radiative transfer. 230. Alrcrall Slabilily and Controf (3). A first-year graduate course covering analytical tools, system theory, reference frames, and transformations, equations of unsteady motion, longitudinal aerodynamics, lateral aerodynamics, stability of steady flight, and response to controi actuation. All stability derivatives will be discussed In detaii, and examples and problems based on actual airplanes will be used. 231. Structural Dynamics (3). Review of the principles of mechanics, virtual work, generalized force, potential energy, conservative systems, stabiiity. Eiastic beams and frames, plates, and shells. Von Karman theory, shear deformation, geometry and equilibrium of shells. The theory of vibrations, undamped and damped systems, orthogonality properties. Vibrations of aircraft structures, coupling with the aerodynamic equations, flutter. Engineering-Edwards Air Force Base Program 267 |
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