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  • 3.00 Credits

    Description: Failure, structure of materials, stress-strain equations, mechanical testing, yielding & fracture, fracture of cracked members, fatigue of materials, stress-based approach to fatigue, fatigue crack growth, creep. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Undergraduate Prerequisites: ME 3300 and ME 3402
  • 3.00 Credits

    Description: Fundamental theories of scanning electron microscopy, energy dispersive spectrometer, and nanomaterials; operating principles for Hitachi S-4800 high resolution scanning electron microscope; hands-on experiences on secondary and backscattering images, x-ray microanalysis and characterization of nanomaterials. Limited to 15 students/seats. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Undergraduate
  • 3.00 Credits

    Description: Introduction to mechatronics, mechatronics components, its working principle and governing models, digital and analog electronics, mechatronic actuators, micro-controllers, sensors, modeling mechatronic systems, and case study. Senior standing. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Undergraduate Prerequisites: (Undergraduate level ECE 6020 Minimum Grade of D- or Undergraduate level ECE 2052 Minimum Grade of D-) and Undergraduate level MAT 2705 Minimum Grade of D-
  • 3.00 Credits

    Description: Basic principles of robotics; kinematic and dynamic concepts; actuators, sensors and practical issues; forward and inverse kinematics and dynamics of simple robotic arms; kinematics and dynamics of wheeled robots; alternative locomotion for mobile robots. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Undergraduate Prerequisites: Undergraduate level ME 4102 Minimum Grade of D- or Undergraduate level ECE 4290 Minimum Grade of D-
  • 3.00 Credits

    Description: The field of biomechanics; skill development for modeling and analyzing the mechanical behavior of biomechanical systems through several case studies using research papers. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Undergraduate Prerequisites: Undergraduate level ME 4102 Minimum Grade of D- and Undergraduate level ME 5201 Minimum Grade of D-
  • 3.00 Credits

    Description: Solutions of ordinary differential equations, series solutions, special functions, boundary-value problems, partial differential equations, vector calculus, calculus of variations, and engineering applications. Undergraduate students must obtain permission of the department chair. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
  • 3.00 Credits

    Description: Tensor algebra and calculus; Lagrangian and Eulerian Kinematics of Deformation; Cauchy and Piola-Kirchhoff stresses; general principles including conservation of mass, conservation of linear and angular momentum and energy; constitutive theory, ideal fluids, Newtonian and non-Newtonian fluids, finite elasticity, and linear elasticity. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
  • 3.00 Credits

    Description: Discretization, boundary conditions, solution methods, heat transfer, flow with known pressure field, calculation of pressure field, applications program, special topics. Undergraduate students must obtain permission of the department chair. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering
  • 3.00 Credits

    Description: Introduction to the finite element method with a focus on stress analysis. Boundary value problems; weighted residuals; variational methods; finite element formulation and solution; hands-on experience using programs for solution of problems. 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Prerequisites:
  • 3.00 Credits

    Description: An advanced treatment of engineering thermodynamics involving reversible and irreversible macroscopic processes with emphasis on fundamentals and applications of the first and second laws, and the thermodynamics of equilibrium states of substances. Seniors must have a minimum GPA of 3.0 3.00credit(s) Restrictions: Must be enrolled in one of the following Levels: Graduate Engineering Must be enrolled in one of the following Majors: Mechanical Engineering Prerequisites:
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