Energy change in a damped oscillation

Tags: #physics #oscillations

Equation

$$\frac{{\Delta E}}{E} = - \frac{b}{m}T \\ E = E_0 \exp \left( { - \frac{b}{m}t} \right) = E_0 \exp \left( { - \frac{t}{\tau }} \right)$$

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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Introduction

Equation

$\frac{{\Delta E}}{E} = - \frac{b}{m}T \\ E = E_0 \exp \left( { - \frac{b}{m}t} \right) = E_0 \exp \left( { - \frac{t}{\tau }} \right)$

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)

Explanation

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Tiffany 2023-11-24 00:00

The pressure is on to pass this exam.

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Lisa Martinez

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2023-11-25 00:00

Nice~

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Jennifer Williams 2023-02-27 00:00

I'm determined to get a pass on this test.

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Tina White

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2023-03-26 00:00

You can make it...

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Tracy Shepard 2023-08-26 00:00

Hoping to get over the hurdle of this exam.

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Curtis Price

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2023-09-20 00:00

Nice~

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Energy change in a damped oscillation

Equation

Latex Code

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Introduction

Equation

Latex Code

Explanation

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