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Which of the following functions of time...

Which of the following functions of time represent (a) simple harmonic, (b) periodic but not simple harmonic, and (c) non-periodic motion? Give period for each case of periodic motion (`omega` is any positive constant):
(a) `sinomegat-cosomegat`
(b) `sin^(3)omegat`
(c) `3cos(pi//4-2omegat)`
(d) `cosomegat+cos3omegat+cos5omegat`
(e) `exp(-omega^(2)t^(2))`
(f) `1+omegat+omega^(2)t^(2)`

Text Solution

Verified by Experts

The function will represent a periodic motion, if it is identically repeated after a fixed interval of time and will represent SHM if it can be written uniquely in the form of `cos ((2pi)/(T)+phi)" or a "sin((2pi)/(T)+phi)`, where T is the time period.
The given function `1+omega t+ omega^(2) t^(2)` is non- periodic. Its period can not be obtained.
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KUMAR PRAKASHAN-OSCILLATIONS-SECTION-B (NUMERICAL FROM TEXTUAL EXERCISE)
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  2. Which of the following functions of time represent (a) simple harmonic...

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  3. Which of the following functions of time represent (a) simple harmonic...

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  4. A particle is in linear simple harmonic motion between two points, A a...

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  5. A particle is in linear simple harmonic motion between two points, A a...

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  6. A particle is in linear simple harmonic motion between two points, A a...

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  7. A particle is in linear simple harmonic motion between two points, A a...

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  8. A particle is in linear simple harmonic motion between two points, A a...

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  9. A particle is in linear simple harmonic motion between two points, A a...

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  10. Which of the followng relationships between the acceleration a and th...

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  11. Which of the following relationships between the acceleration a and th...

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  12. Which of the followng relationships between the acceleration a and th...

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  13. Which of the following relationships between the acceleration a and th...

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  14. The motion of a particle executing simple harmonic motion is described...

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  15. A spring balance has a scale that reads from 0 to 50 kg. The length of...

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  16. A spring having with a spring constant 1200 N m^(-1) is mounted on a h...

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  17. A spring having with a spring constant 1200 N m^(-1) is mounted on a h...

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  18. A spring having with a spring constant 1200 N m^(-1) is mounted on a h...

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  19. In Exercise 9, let us take the position of mass when the spring is un...

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  20. In Exercise 9, let us take the position of mass when the spring is un...

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