Subject Code: ME6L001 Subject Name: Vibrations L-T-P: 3-1-0 Credit:  4
Pre-Requisite(s): Theory of Machines II
Fundamental concepts in vibration and modeling: Introduction to modeling and analysis
Introduction to mechanical vibration
Free vibration of single degree of freedom systems: Undamped vibration; Simple harmonic motion; Damped vibration; Modeling: Energy and Newton's methods; Measurement of vibrational components; Design Consideration; Stability
Forced harmonic excitation of single degree of freedom systems: Undamped vibration; Damped vibration; Base excitation; Rotating unbalance; Coulomb damping
Vibration of single degree of freedom systems under general forcing conditions: Impulsive inputs; Arbitrary nonperiodic inputs; Arbitrary periodic inputs; Stability
Vibration of multi degree of freedom systems: Modeling, Free undamped vibration; Eigenvalue problem; Modal analysis; Free damped vibration; Forced vibration Dynamic vibration absorbers; Isolators for shock and harmonic loading.
Text/Reference Books:
  1. Thomson  W.T., and Dahleh M.D., Theory of Vibrations with Applications, Pearson Education.
  2. Palm W.J., Mechanical Vibration, Wiley Publishers.
  3. Tongue B.H., Principles of Vibration, Oxford University Press.
  4. Meirovitch L., Fundamentals of Vibrations, Mcgraw-Hill.
  5. Kelly G.S., Mechanical Vibrations: Theory and Applications, CL-Engineering Publication.
  6. Rao S.S., Mechanical Vibration, Prentice Hall.
  7. Rao J.S., Advanced Theory of Vibration, New Age International.
  8. Mukhopadhyay M., Structural Dynamics: Vibrations and Systems, ANE Books.
  9. McConnell K.G., and Varoto P.S., Vibration Testing: Theory and Practice, Wiley.
  10. Timoshenko S., Vibration problems in engineering, Oxford University Press.