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Course Criteria
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3.00 Credits
Introduction to Fluid Dynamics and low speed aerodynamics; fluid properties; dimensional analysis; conservation equations in integral and differential form; viscous flow; potential flow theory, air foil and finite wing theory. Prerequisites: C or better in each of the following: MAE 2323, MAE 3309 (or concurrent enrollment) or MAE 3310 (or concurrent enrollment), and MAE 3360 (or concurrent enrollment).
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3.00 Credits
The relation between forces acting on particles, systems of particles and rigid bodies, and the changes in motion produced. Review of kinematics and vector analysis, Newton's Laws, energy methods, methods of momentum, inertia tensor and Euler's equations of motion. Prerequisite: C or better in MAE 1312; C or better in MATH 2425 (or HONR-SC 2425).
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3.00 Credits
Utilization of digital computers in mechanical and aerospace engineering. Computational algorithms and their representation in FORTRAN, C, and Matlab. Introduction to linear algebra and numerical methods. Prerequisite: C or better in MATH 2425 or HONR-SC 2425 (or concurrent enrollment).
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3.00 Credits
Introduction to data analysis, incorporating statistics and probability, design and planning of engineering experiments for error prediction and control. Measurement and instrumentation, basic instruments, their calibration and use. Prerequisite: C or better in MAE 1351, C or better in MATH 2425 or HONR-SC 2425.
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0.00 Credits
Junior level undergraduate research. Prerequisite: Departmental good academic standing and permission of instructor. May be taken a maximum of 3 times.
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1.00 Credits
Experiments to study materials behavior and deformation of structural elements common to aerospace vehicles. Prerequisite: MAE 3315 (or concurrent enrollment), C or better in MAE 2381.
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1.00 Credits
Wind tunnel experiments to study flow phenomena of aerodynamics interest, including scale testing of airfoils, wings, and aircraft. Prerequisite: MAE 3303 (or concurrent enrollment), C or better in MAE 2381.
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1.00 Credits
Fundamental measurement techniques and experimental data analysis in mechanical engineering in the fields of thermal, fluid, structures, design, and dynamic systems. Introduction to sensor calibration, digital data acquisition, uncertainty analysis, and report writing. Prerequisite: MAE 3314, MAE 3319, C or better in each of the following MAE 2381, EE 2320.
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2.00 Credits
The overall nature of design as a process is presented along with various models, methods, techniques, and tools for the various phases of the process provide the student with an excellent understanding of how to design. Students learn to design mechanical components based on stress/deflection and the associated failure theories. Prerequisite: C or better in each of the following: MAE 2312, MAE 2323, and MAE 3324.
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3.00 Credits
Adiabatic and isentropic flows; normal and oblique shockwaves; Prandtl-Meyer flows; expansion waves; compressible flow nozzles, diffusers, and wind tunnels; thin-airfoil and small-perturbation theory; design principles for supersonic vehicles and wind tunnels; methods of characteristics. Prerequisite: C or better in each of the following: MAE 2315, MAE 3309 (or MAE 3310), and MAE 3360.
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