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A spring having with a spring constant 1...

A spring having with a spring constant `1200 N m^(-1)` is mounted on a horizontal table as shown in Fig. 14.24. A mass of 3 kg is attached to the free end of the spring. The mass is then pulled sideways to a distance of 2.0 cm and released.

Determine (i) the frequency of oscillations, (ii) maximum acceleration of the mass, and (iii) the maximum speed of the mass.

Text Solution

Verified by Experts

Since body execute SHM, hence its maximum velocity,
`v_("max")= A omega = A sqrt((k)/(m))`
`therefore v_("max") = 0.02 sqrt((1200)/(3))`
`therefore v_("max") = 0.02xx20 = 0.4 ms^(-1)`.
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KUMAR PRAKASHAN-OSCILLATIONS-SECTION-B (NUMERICAL FROM TEXTUAL EXERCISE)
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  2. A spring having with a spring constant 1200 N m^(-1) is mounted on a h...

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  3. A spring having with a spring constant 1200 N m^(-1) is mounted on a h...

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  4. In Exercise 9, let us take the position of mass when the spring is un...

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