![]() ![]() Includes the classical analysis of plates and shells of various shapes closed-form numerical and approximate methods of solution of governing partial differential equations and advanced topics (large deflection theory, thermal stresses, orthotropic plates). Prerequisites: MAE 2320 Dynamics and CS 1110 or CS 1111 or CS 1112 Introduction to Programming, or instructor's permission.Īnalyzes variational and computational mechanics of solids potential energy complementary energy virtual work Reissner's principle Ritz and Galerkin methods displacement force and mixed methods of analysis finite element analysis including shape functions, convergence, and integration. Basic probability theory, numerical techniques for recursive Bayesian estimation and multi-sensor data fusion, Simultaneous Localization and Mapping, quantification of belief, and autonomous control. Principles of robotic autonomy for navigating unstructured environments using mathematical principles. Introduces rocket-engine design and optimization problems materials, temperature-exposure, and stress-strain issues rocket flight mechanics and trajectories rocket staging issues liquid propellants liquid-propellant engine designs rocket thrust-chamber flow behaviors and modeling rocket exhaust behaviors modeling methods maneuver, orbit-adjustment, and attitude-adjustment engines Prerequisite: MAE 2320, 3010, 3210 corequisite: MAE 3220 Topics include standard materials names/designations standard forming methods usual strengthening means temperature and temperature-history effects. Includes common metal, polymer, ceramic, and composite materials. Introduces physical-chemical/microstructural and working mechanical properties, along with practical applications, for materials of wide interest on aerospace materials. ![]() Special Topics in Aerospace Engineering (3) ![]() Special Topics in Mechanical Engineering (3) ![]()
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