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A simple pendulum of length L and having...

A simple pendulum of length L and having a bob of mass m is suspended in a car. The car is moving on a circular trrack of radius R with a uniform speed v. If the pendulum makes small oscillations in a radial direction about its equilibrium position, its time period of oscillation is

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The correct Answer is:
In the given problem
`t = 2pisqrt((T)/(g_(e)))`
where `g_(e) ` is the effective value of acceleration due to gravity.
While the acceleration due to gravity `g` acts in the downward direction, the radial acceleration `(v^(2))/(R)` acts in the horizontal direction so, the effective value `g_(e)` of acceleration due to gravity is given by
`g_(e) = sqrt(g^(2) + ((v^(2))/(R))^(2))`
`:.T=2pisqrt((l)/(g^(2)+(v^(2)/(R))^(2)))` or `T=2pisqrt((l)/(g^(2)+(v^(2)/(R))^(2)))`
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RESONANCE ENGLISH-SIMPLE HARMONIC MOTION -Board Level Exercise
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  2. Why the motion of a satellite around a planet cannot be taken as S.H.M...

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  3. Is oscillation of a mass suspended by a spring simple harmonic ?

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  4. Which of the following examples represents (nearby) shm and which repr...

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  5. Fill in the blanks using appropriate word from the list at the end of ...

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  6. A restoring force is a must for a body to execute S.H.M Explain, why

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  7. A man is standing on a platform moving up and down as a S.H.M. will th...

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  8. An air chamber of volume V has a neck area of cross section A into whi...

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  9. Show that for a particle in linear SHM the average kinetic energy over...

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  10. A man with a wrist watch on his hand falls from the top of a tower. Do...

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  11. Time period of a particle in shm depends on the force constant k and m...

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  12. Figure a) shows a spring of force constant k clamped rigidly at once e...

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  13. (a) Define simple harmonic motion and derive, an expression for the pe...

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  14. Answer the following question What is the inverse of frequency of osc...

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  15. A simple pendulum of length L and having a bob of mass m is suspended ...

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  16. Define resonance and resonance energy. What are the conditions for res...

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  17. Explain damped harmonic oscillation and the equation of such oscillati...

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  18. Explain damped harmonic oscillation and the equation of such oscillati...

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  19. Write the expression for equivalent spring constant of (i) parallel ...

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  20. Find equivalent spring constant for the system:

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