Damped Oscillatory motion : Period

AI Thread Summary
Damped oscillatory motion involves calculating the period using the equation T = √(m/k) or T = 2π/ω, but the choice of ω can vary over time due to damping effects. The period is not constant if ω changes, leading to confusion about which value to use for calculations. When calculating amplitude after several oscillations, it is crucial to consider the damping factor, represented as b²/4m², which may be negligible compared to k/m. The discussion emphasizes the importance of correctly applying these equations to accurately determine the period and amplitude in damped systems. Understanding these relationships is essential for solving problems related to damped oscillatory motion.
Bedeirnur
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Relevant equations
1)
upload_2015-4-1_0-16-27.png

2) T = \sqrt{ \frac{m}{k} }
3) T = \frac{2 \pi }{ \omega }In some problems about damped oscillatory motion, the requests ask for example "Calculate the amplitude after 20 oscillations"

I know that i need to find the period first of all but :

Do i find the period by using equation number 2? Is that constant? I've seen other threads where they calculated T with (2) and used it for everything but, if we have a different value of \omega overtime, why did we use the initial \omega to find the period?

If i divide 2π by

what do I find? Isn't that the period?
 

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