Energy change in a damped oscillation
Tags: #physics #oscillationsEquation
$$\frac{{\Delta E}}{E} =  \frac{b}{m}T \\ E = E_0 \exp \left( {  \frac{b}{m}t} \right) = E_0 \exp \left( {  \frac{t}{\tau }} \right)$$Latex Code
\frac{{\Delta E}}{E} =  \frac{b}{m}T \\ E = E_0 \exp \left( {  \frac{b}{m}t} \right) = E_0 \exp \left( {  \frac{t}{\tau }} \right)
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Equation
Latex Code
\frac{{\Delta E}}{E} =  \frac{b}{m}T \\ E = E_0 \exp \left( {  \frac{b}{m}t} \right) = E_0 \exp \left( {  \frac{t}{\tau }} \right)
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