Physics Course/Oscillation/Oscillation Side by Side

When apply a force on an object of mass attach to a spring . The spring will move a distance y above and below the equilibrium point and this movement keeps on repeating itself for a period of time . The movement up and down of spring for a period of time is called Oscillation

The force acts on the object to pull the object down

F = m a

The Restoring Force of spring to push the object up can be calculated by Hook's Law

F_s = - k y

The oscillation stops when the two forces are equal or the net force on object is zero

m a = - k y

y = ${\displaystyle \frac{ma}{k}}$

a = - ${\displaystyle \frac{k}{m}y}$

${\displaystyle t=\frac{k}{m}\frac{y}{v}}$

Any force acting on an object can be expressed in a differential equation

${\displaystyle F=m\frac{d^{2}y}{d{t}^2}}$

Equilibrium is reached when F = F_s

${\displaystyle F=m\frac{d^{2}y}{d{t}^2}=-ky}$

${\displaystyle F=\frac{d^{2}y}{d{t}^2}+\frac{k}{m}y=0}$

${\displaystyle s^2+\frac{k}{m}s=0}$

s = ± j ${\displaystyle \sqrt{\frac{k}{m}}}$

s = ${\displaystyle e^j\sqrt{\frac{k}{m}}t+e^{-}j\sqrt{\frac{k}{m}}t}$

${\displaystyle y=ASin\frac{k}{m}t}$

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