Calculating Damping Parameters for SDOF System

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SUMMARY

This discussion focuses on calculating damping parameters for a Single Degree of Freedom (SDOF) system using force versus time data. The user successfully calculated the exponential envelope in Matlab, which indicates the presence of viscous damping. To derive the damping coefficient, the equation of motion m\ddot x + c\dot x + kx = 0 is referenced, with the solution involving exponential decay. The relationship between the damping coefficient and the parameters p and ω is also highlighted, emphasizing the need for further study of SDOF systems.

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  • Understanding of Single Degree of Freedom (SDOF) systems
  • Proficiency in Matlab for data analysis
  • Knowledge of differential equations related to motion
  • Familiarity with concepts of damping and exponential decay
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  • Study the relationship between damping coefficient and parameters p and ω in SDOF systems
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tommo123
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I've got data that's force (g) against time for an SDOF system (with a bit of noise). The main thing I'm interested in is calculating the damping parameters, where it's exponential decay (is that called viscous?).

I've calculated the exponential envelope in Matlab, which gives me a nice exponential curve. How would I then get the damping coefficient from this, and what would my units be? Alternatively I could work from a logarithmic graph and fit a line (of the form y=mx+c), but again, would m be the damping coefficient, and what would it's units be?

Thanks
 
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Start from the equation of motion including damping, and compare its solution with what you measured.

If the equation of motion for free damped vibration is [itex]m\ddot x + c\dot x + kx = 0[/itex], the general solution is of the form [itex]e^{-pt} (A \cos \omega t + B \sin \omega t)[/itex].

Any textbook or website on SDOF should show you how p and [itex]\omega[/itex] are related to m, c, and k, if you don't want to work it out for yourself.
 

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