Vibration for EngineersCovers the basics of vibration analysis and the design of machines, mechanical systems and structures, providing extensive coverage of classical subjects, such as single and multiple degree-of-freedom and continuous systems. Software and a solutions manual are available. |
Contents
The Early Modern Era | 7 |
VIBRATION OF NONLINEAR SYSTEMS | 12 |
Conclusion | 13 |
Copyright | |
29 other sections not shown
Other editions - View all
Common terms and phrases
A₁ A₂ amplitude angular velocity applied assuming beam boundary conditions c₁ C₂ compressor computed coordinates critical speed damper damping constant damping ratio deflection degrees of freedom diag diameter differential equation disk displacement dynamic elastic electric equations of motion equilibrium example demonstrates F₁ Fourier Fourier series function harmonic excitation harmonic force harmonic oscillator horizontal inertia influence coefficients initial conditions J₂ k₁ k₂ Lagrange's equation length linear m₁ m₂ m₂w² mass matrix maximum measured method midspan moment of inertia N/m² natural frequency natural modes natural vibration Newton's law obtain pendulum phase angle potential energy Problem rad/s Rayleigh response rotation rotor shaft shear modulus shown in Figure SIMULAB solution spring constant static stiffness torque torsional spring torsional vibration turbine unbalance undamped vector vertical vibration amplitude vibration modes w₁ x₁ yields zero дх