Theory of Damping: General Equation?

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The discussion centers on the existence of a general equation for damping applicable beyond specific systems like springs or RLC circuits. A proposed general form is the second-order differential equation: ##\ddot x + 2\beta\omega\dot x + \omega^2 x = f##, where ##\beta## indicates the damping type (under, critical, or over). This equation aligns with established models in mechanical and electrical systems. The conversation emphasizes the utility of this general equation for analyzing multi-degree of freedom (MDOF) systems using normal modes. Overall, the participants seek a broader understanding of damping equations applicable across various contexts.
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Is there a general equation of damping? I know that there is a second ODE for damping with regards to springs, and with RLC circuits, but is there a general form of damping equations (with critical-damp, overdamp, and under-damp). I know how to solve second ODEs, but I was wondering if there was a general equation, because all I could find are equations that relate specifically to springs or RLC Circuits
 
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Try google for multi degree of freedom (MDOF) systems analysed using normal modes.

A general equation in that form is ##\ddot x + 2\beta\omega\dot x + \omega^2 x = f## where ##\beta## is < 1, = 1 or > 1 for under damping, critical, or over damping and ##\omega## is the undamped oscillation frequency.
 
it's the same as with RLC or the mechanical spring, mass, and dashpot models.

just a simple 2nd order differential eq.
 

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