A particle is performing S.H.M. with energy of vibration 90 ,J and amplitude 6 ,cm. When the particle reaches at distance 4 ,cm from mean

Q: A particle is performing $S.H.M.$ with energy of vibration $90 \,J$ and amplitude $6 \,cm$. When the particle reaches at distance $4 \,cm$ from mean position, it is stopped for a moment and then released. The new energy of vibration will be ........... $J$

a (a) Energy $=90 \,J \quad$ Amplitude $=6 \,cm$ Maximum energy $=\frac{1}{2} m A^2 \omega^2=90$ $\text { or } m \omega^2=\frac{180}{36 \times 10^{-4}}$ $\therefore m \omega^2=30 \times 10^2$ When particle is stopped the point where it is stopped is the new amplitude but angular velocity will remain same. $E=\frac{1}{2} m A_2^2 \omega^2$ $\text { or } E=3000 A_2^2$ $A_2=4 \times 10^{-2}$ $A_2=3000$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A particle is performing $S.H.M.$ with energy of vibration $90 \,J$ and amplitude $6 \,cm$. When the particle reaches at distance $4 \,cm$ from mean position, it is stopped for a moment and then released. The new energy of vibration will be ........... $J$

A$40$
B$50$
C$90$
D$60$

Medium

STD 11 Science
NEET
STD 11 - 13. oscillations
Physics

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