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The total energy of a vibrating particle...

The total energy of a vibrating particle in `SHM` is `E`. If its amplitude and time period are doubled, its total energy will be :-

A

16E

B

8E

C

4E

D

E

Text Solution

Verified by Experts

The correct Answer is:
D
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MOTION-SIMPLE HARMONIC MOTION-EXERCISE -2 (Objective Problems | NEET)
  1. Which of the graph between acceleration and time is correct ?

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  2. The total energy of a particle executing SHM is directly proportional ...

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  3. The total energy of a vibrating particle in SHM is E. If its amplitude...

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  4. The total energy of a particle in SHM is E. Its kinetic energy at half...

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  5. The total energy of a particle in SHM is E. Its kinetic energy at half...

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  6. A particle executes SHM on a line 8 cm long. Its K.E. and P.E. will be...

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  7. The energy of a simple harmonic oscillator in the state of rest is 3 ...

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  8. The total energy of a harmonic oscillator of mass 2 kg is 9 J. If its ...

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  9. The value of total mechanical energy of a particle is SHM is

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  10. Maximum kinetic energy of a particle suspended from a spring in oscill...

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  11. The force acting on a 4gm mass in the potential field U= 8x^2 at x= -2...

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  12. On suspending a mass m from a spring of force constant k, frequency of...

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  13. In the adjoining figure the frequency of oscillation for a mass m will...

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  14. A object of mass m is suspended from a spring and it executes SHM with...

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  15. As shown in the figure, two light springs of force constant k(1) and k...

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  16. The spring constants of two springs of same length are k(1) and k(2) a...

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  17. The total spring constant of the system as shown in the figure will be...

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  18. Some springs are combined in series and parallel arrangement as shown ...

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  19. K is the force constant of a spring. The work done in increasing its e...

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  20. The time period of a simple pendulum when it is made to oscillate on t...

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