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The force constant, amplitude and total ...

The force constant, amplitude and total mechanical energy of a pendulum executing linear SHM are respectively `2xx10^6N//m,0.01m` and 160J. Its

A

Maximum potential energy 100J

B

Maximum Kinetic energy 100J

C

Maximum potential energy 160J

D

Minimum potential energy 4.2J

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The correct Answer is:
C
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PATHFINDER-OSCILLATION AND WAVES-QUESTION BANK
  1. If the time period of a simple pendulum of effective length L is T, th...

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  2. A particle is executing SHM with frequency f. The frequency of the var...

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  3. The force constant, amplitude and total mechanical energy of a pendulu...

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  4. If the displacement and the restoring force acting on a particle execu...

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  5. Which are of the following is not the equation of the SHM ?

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  6. A particle executing SHM follows a straight path of length l. The ampl...

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  7. The amplitude of vibration of the SHM represented by the equation x=As...

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  8. The initial phase or epoch of the SHM represented by the equation x=As...

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  9. The time period of a second pendulum is

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  10. The nature of the graph of the effective length of a pendulum versus i...

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  11. The length of a second pendulum on the surface of the earth is

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  12. The distance between the positions of maximum potential energy and max...

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  13. If the amplitude of an SHM is A, than for wiat position of the particl...

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  14. Time period of a simple pendulum on the surface of the earth is T1 and...

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  15. If the time period, displacement, velocity and amplitude of a particle...

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  16. If the equation x = asinomegat represents a SHM of a particle, then It...

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  17. In a static lift time period of a simple pendulum is T=2pisqrt(l/g), N...

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  18. A particle having SHM has energy E=2pi^2x^2+8v^2, x= displacement, v =...

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  19. The time period of two simple pendulum are T and 5T/4 of they starts f...

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  20. The time period of a particle having SHM is 4 s then what will be the ...

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