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The expression in S.H.M [2pi^2 frac(mA^...

The expression in S.H.M [2pi^2 frac(mA^2)(T^2)] represents its

A

Kinetic energy

B

Total energy

C

Potential energy

D

Translation energy

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CHETANA PUBLICATION-Oscillations.-EXERCISE
  1. When we graphically represent velocity from the mean position at frac(...

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  2. When we graphically represent acceleration from the extreme position ...

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  3. The expression in S.H.M [2pi^2 frac(mA^2)(T^2)] represents its

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  4. The total energy of a particle of mass 200 g, performing S.h.m.is 10^-...

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  5. A simple pendulum, whose time period is seconds, is called a seconds ...

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  6. The length of a seconds pendulum at a place where g = 9.8 frac(m)(s^2)...

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  7. A bar magnet is vibrating in a uniform magnetic induction, the magnitu...

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  8. At what distance, is the KE of a particle, performing S.H.M of amplitu...

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  9. The maximum velocity of a particle performing a linear S.H.M is 0.16 f...

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  10. The maximum velocity of a particle performing a linear S.H.M is 0.16 (...

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  11. A particle performs linear S.H.M. starting from the mean position. Its...

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  12. A body of mass 1 kg is performing linear S.H.M. its displacement x (cm...

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  13. The length of second 's pendulum on the surface of earth is nearly 1 m...

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  14. Two identical springs of constant k are connected , first in series an...

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  15. The period of angular S.H.M when their unlike poles are joined togethe...

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  16. The differential equation m frac(d^2x)(dt^2)+b frac(dx)(dt) +k(x) = 0 ...

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  17. A bar magnet ,freely suspended in a magnetic induction H makes 20 osci...

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  18. A bar magnet of moment 2 Am^2 and having a moment of inertia 10^-6 kg-...

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  19. A simple pendulum of length 1 m has a mass of 10 gm and oscillates fre...

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  20. The maximum velocity of a particle performing S.H.M is 6.28 frac(cm)(s...

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