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MECH 651: Vibration Analysis
1.00 Credits
Bucknell University
Damped and undamped vibrations in free and forced systems. Resonance conditions. Vibration measuring equipment. Multi-degree of freedom discrete systems. Continuous systems. Prerequisite: permission of the instructor.
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MECH 652: Advanced Dynamics
1.00 Credits
Bucknell University
Kinematics and dynamics of particles and rigid bodies. Degrees of freedom. Partial velocities. Generalized active and inertia forces. Kane's equation. Lagrande's equation. Numerical simulation of motion. Prerequisite: MECH 252 and permission of the instructor.
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MECH 652 - Advanced Dynamics
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MECH 653: Robot
1.00 Credits
Bucknell University
History, evolution, capabilities and applications of robotic devices. Introduction to robot kinematics, dynamics, and control. Research into current topics in robotics. Development and implementation of robotic operations using model and industrial robots. Prerequisites: MECH 252 and permission of the instructor.
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MECH 660: Engineering Optimization
1.00 Credits
Bucknell University
Applied methods of linear, nonlinear, discrete, and global optimization. Numerical techniques for constrained and unconstrained problems. Emphasis on engineering applications and solution methods using Matlab.
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MECH 660 - Engineering Optimization
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MECH 662: Computer Integrated Manfactur
1.00 Credits
Bucknell University
Issues of integrated information in manufacturing systems. In-depth study of solid modeling. Computer control of mnaufacturing processes, computer-aided quality control and computer-aided process planning.
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MECH 662 - Computer Integrated Manfactur
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MECH 663: Introduction to Mechatronics
1.00 Credits
Bucknell University
Mechatronics is a multi-discipline technical area defined as the synergistic integration of mechanical engineering with electronic and intelligent computer control in the design and manufacture of industrial products and processes. This design-directed course will cover topics such as actuators and drive systems, sensors, programmable controllers, microcontroller programming and interfacing, and automation systems integration.
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MECH 663 - Introduction to Mechatronics
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MECH 664: Mechanism Design
1.00 Credits
Bucknell University
Design of traditional and compliant mechanisms. Topics include kinematics, analytical and graphical synthesis methods, and topics in research.
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MECH 664 - Mechanism Design
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MECH 665: Advanced Mechanics of Solids
1.00 Credits
Bucknell University
Fundamentals of the theory of elasticity and plasticity. Classical methods for solution of problems, thermal stress, plate bending torsion, residual stress, plastic collapse. Numerical analysis in plasticity. Prerequisite: permission of the instructor.
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MECH 665 - Advanced Mechanics of Solids
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MECH 666: Applied Fracture Mechanics
1.00 Credits
Bucknell University
Fundamentals of fracture mechanics and its applications to the design of damage tolerant structures. Case studies in the fields of aerospace, pressure, vessels, rotating machinery, railroads, etc. Illustrating fracture mechanics principles in design. Prerequisite: permission of the instructor.
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MECH 666 - Applied Fracture Mechanics
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MECH 667: Finite Element Methods
1.00 Credits
Bucknell University
Fundamental theory and applications for civil engineering, mechanical engineering, and engineering mechanics stress analysis problems. One-two- and three-dimensional elements, and axisymmetric elements, and their formulations; stress recovery techniques; modeling considerations; convergence criteria and error estimates, includes use of commercial and developmental finite element analysis programs.
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MECH 667 - Finite Element Methods
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