A mass attached to a spring is free to oscillate, with angular velocity `omega`, in a horizontal plane without friction or damping. It is pulled to a distance `x_(0)` and pushed towards the centre with a velocity `v_(0)` at time `t=0`. Determine the amplitude of the resulting oscillations in terms of the parameters `omega, x_(0)and v_(0)`.A. `sqrt((v_(0)^(2))/(omega^(2))-x_(0)^(2))`B. `sqrt(omega^(2)v_(0)^(2)+x_(0)^(2))`C. `sqrt((x_(0)^(2))/(omega^(2))+v_(0)^(2))`D. `sqrt((v_(0)^(2))/(omega^(2))+x_(0)^(2))`

A mass attached to a spring is free to oscillate, with angular velocit

1.	A mass attached to a spring is free to oscillate, with angular velocity `omega`, in a horizontal plane without friction or damping. It is pulled to a distance `x_(0)` and pushed towards the centre with a velocity `v_(0)` at time `t=0`. Determine the amplitude of the resulting oscillations in terms of the parameters `omega, x_(0)and v_(0)`.A. `sqrt((v_(0)^(2))/(omega^(2))-x_(0)^(2))`B. `sqrt(omega^(2)v_(0)^(2)+x_(0)^(2))`C. `sqrt((x_(0)^(2))/(omega^(2))+v_(0)^(2))`D. `sqrt((v_(0)^(2))/(omega^(2))+x_(0)^(2))`
Answer» Correct Answer - D Let the displacement of the block at instant of time t be, `x=Acos(omegat+phi)` At `t=0,x=x_(0)` `thereforex_(0)=Acosphi` . . . (i) Velocity, `v=(dx)/(dt)=-Aomegasin(omegat+phi)` At `t=0,v=-v_(0)` `therefore-v_(0)=-Aomegasinphi` or `Asinphi=(v_(0))/(omega)` Squaring and adding (i) and (ii), we get `A^(2)(sin^(2)phi+cos^(2)phi)=(v_(0)^(2))/(omega^(2))+x_(0)^(2)` `A=sqrt((v_(0)^(2))/(omega^(2))+x_(0)^(2))`

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