A particle of mass 0.50 kg executes a si...

A particle of mass 0.50 kg executes a simple harmonic motion under a force `F=-(50Nm^-1)x`. If it crosses the centre of oscillation with a speed of `10ms^-1`, find the amplitude of the motion.

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The kinetic energy of the partical when it is mean position. It is also its total energy as the potential energy is zero here .
`E = (1)/(2) m v^(2) = (1)/(2) (0.50 kg) (10 m//s)^(2) = 25 J`
As the maximum displacement `x = A`, the speed is zero and hence the kinetic energy here is `1//2 kA^(2)`. At this position it will also its total energy . Hence
`(1)/(2) kA^(2) = 25J` (i)
The force on the partical is gives by `F = - (50N//m)x`
Thus, the spring constant is `k = 50 N//m`
Equation (i) gives
`(1)/(2) ( 50 N//m) A^(2) = 25 J implies A = 1m`

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