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The graph between instantaneous velocity...

The graph between instantaneous velocity and displacement of a particle performing S.H.M.with period `2pi sec or omega = 1` is

A

parabola

B

straight line

C

ellipse

D

circle

Text Solution

Verified by Experts

The correct Answer is:
D
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NIKITA PUBLICATION-OSCILLATIONS -MCQ
  1. The graph between instantaneous velocity and acceleration of a partic...

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  2. Graph between velocity and displacement of a particle, executing S.H.M...

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  3. The graph between instantaneous velocity and displacement of a particl...

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  4. The graph between instantaneous velocity and angular displacement of a...

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  5. The graph between instantaneous acceleration and angualr displacement ...

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  6. A particle performing S.H.M., its velocity when the particle moves fro...

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  7. The equation of a S.H.M. of amplitude 'A' and angular frequency omega...

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  8. A particle performing S.H.M. about equilibrium position. Then the velo...

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  9. Acceleration amplitude of a particle performing S.H.M. is the product ...

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  10. The ratio of the maximum velocity and maximum displacement of a partic...

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  11. The figure gives the displacement versus time graph of a simple harmon...

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  12. The differential equation of angular S.H.M. is in the order of

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  13. A particle performing S.H.M. with amplitude 'A' and period T. The aver...

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  14. The frequency of oscillation of a particle executing SHM with amplitud...

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  15. A particle executing linear S.H.M. performs 30 oscillations per minute...

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  16. A ball attached to a string travels in uniform circular motion in a ho...

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  17. A particle starts simple harmonic motion from the mean position. If It...

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  18. The initial phase of a simple harmonic oscillator is zero. At what fra...

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  19. A particle is performing simple harmonic motion along x-axis with ampl...

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  20. A particle starts S.H.M. from mean position along straight line and co...

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