MCQ
For the system given below, find the angular frequency of oscillation ?
- A$\frac{10}{\sqrt{3}}$
- B$10 \sqrt{3}$
- ✓$\frac{20}{\sqrt{3}}$
- D$20 \sqrt{3}$
$\frac{1}{2} Kx ^{2}+\frac{1}{2} mv ^{2}+\frac{1}{2} I \omega^{2}= C$
$\frac{1}{2} K (2 x ) \frac{ dx }{ dt }+\frac{1}{2} m (2 v ) \frac{ dv }{ dt }+\frac{1}{2} I \frac{2 v }{ r ^{2}} \frac{ d v }{ dt }=0$
$Kvx +\frac{ m }{4} va +\frac{ m }{2} va =0$
$- Kx =\frac{3 ma }{4}$
Simplify further.
$a =-\frac{4 K }{3 m } x =-\omega^{2} x$
$\omega^{2}=\frac{4 K }{3 m }$
$\omega=\sqrt{\frac{4 K }{3 m }}$
Substitute the values as,
$\omega=\sqrt{\frac{4(100)}{3(1)}}$
$=\frac{20}{\sqrt{3}} rad / sec$
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(Where $v$ stands for velocity)
[Given $1\, {cal}=4.2\, {J}$ and specific heat of water $\left.=1 \,{cal} \,{g}^{-1}\;{ }^{\circ}\, {C}^{-1}\right]$