Course Page ✏️
- Mechanical Vibrations
- MEM_428
- Description
-
The course will examine single and multiple degree of freedom lumped parameter systems subjected to harmonic and transient excitation. Analytical methods in vibration analysis will be covered. Emphasis will be placed on modeling of mechanical engineering systems, correlation of physical parameters with the coefficients of the pertinent differential equations, and the concepts of natural frequency, damping and resonance. Vibrations of rotating machinery and vibration monitoring and control in industrial applications will also be examined.
- ECTS credits
- 5
- Teaching Language
- Greek
- Exam Language
- English/Greek
- Support Materials Language
- English/Greek
- Basic Learning Outcomes
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- Differential and partial differential equations (B1.4 - MEB - Differential and partial differential equations)
- Optimization (B1.6 - MEB - Optimization)
- Mechanics fundamentals, Kinematics, Dynamics (B3.1 - MEB - Mechanics fundamentals, Kinematics, Dynamics)
- Final Learning Outcomes
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- Solve mathematical problems that may arise in engineering skillfully applying different methods(F01 - MEB - Solve mathematical problems that may arise in engineering skillfully applying different methods)
- Handle basic concepts of physics for the resolution of engineering problems (F3 - MEB - Handle basic concepts of physics for the resolution of engineering problems)
- Course categorized
- Managing Entity (faculty)
- Faculty of Engineering and Technology (CUT)Department of Mechanical Engineering and Materials Science and Engineering (CUT)