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A spring of force constant 1200Nm^(-1) i...

A spring of force constant `1200Nm^(-1)` is mounted on a horizontal table as shown in figure. A mass of 3.0kg is attached to the free end of the spring, pulled side ways to a distance of 2.0cm and released. Determing.
(a) the frequency of oscillation of the mass.
(b) the maximum acceleration of the mass.
(c) the maximum speed of the mass.

Text Solution

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(i) Spring consant, `k=1200Nm^(-1)`
Mass, m=3kg
Displacement ,A=2.0cm =0.02 M
Frequency of oscillation v, is given by the relation:
`v=(1)/(T)=(1)/(2pi)sqrt((k)/(m))`
Where , T is the time period
`v=(1)/(2xx3.14)sqrt((1200)/(3))=3.18//s`
Hence,the frequency of osillation is `3.18//s`.
(ii) Maximum acceleration (a) is given by the relation
`a=omega^(2)A`
Where,
omega =Angular Frequency =`sqrt((k)/(m))`
A=Maximumdosplacement
`a=(k)/(m)A=(1200xx0.02)/(3)=8ms^(-2)`
Hence ,the maximum accelration of the mass is `8.0m//s^(2)`
(iii) Maximum velocity , `v_(max)=Aomega` Hence,the maximum velocity of the mass is `0.4m//s`.
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