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The amplitude of a particle performing S...

The amplitude of a particle performing `SHM` is 'a'. The displacement at which its velocity will be half the maximum velocity is

A

a/2

B

a/3

C

`sqrt(3) a//2`

D

`2a// sqrt(3)`

Text Solution

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The correct Answer is:
C
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NARAYNA-OSCILLATIONS-C. U . Q
  1. The angular velocities of three bodies in SHM are omega(1), omega(2), ...

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  2. For a particle in SHM the amplitude and maximum velocity are A and V r...

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  3. The amplitude of a particle performing SHM is 'a'. The displacement at...

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  4. A SHM has amplitude A and time period T. The maximum velocity will be

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  5. A particle performs harmonic oscillations along a straight line with a...

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  6. A particle perform SHM with period T and amplitude A. the mean velocit...

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  7. A particle executing S.H.M. completes a distance (taking friction as n...

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  8. The maximum acceleration of a body moving is SHM is a(0) and maximum v...

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  9. A particle executing SHM. The phase difference between acceleration an...

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  10. The phase of a particle in S.H.M. is pi//2, then :

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  11. v36.3

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  12. A body executing SHM has a total energy E. When its kinetic energy is ...

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  13. For a particle executing SHM, the kinetic energy (K) is given by K = K...

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  14. A particle executes SHM with a time period T. The time period with whi...

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  15. In SHM at the equilibrium position (i) displacement is minimum (ii...

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  16. If amplitude of a particle executing SHM is doubled, which of the foll...

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  17. A body executes simple harmonic motion. The potential energy (P.E), th...

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  18. The total energy of a particle executing simple harmonic motion is (x-...

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  19. The potential energy of a particle (U(x)) executing SHM is given by

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  20. If the potential energy of an oscillator is U =a +bx +cx^(2) +dx^(3), ...

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