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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 ina car. The car is moving on a circular track of radius R with a uniform speed v. If the pendulum makes small oscillations in a radial direction about its equilibrium, what will be its time period ?

A

`T=2pisqrt((L)/(g))`

B

`T=2pisqrt((L)/(sqrt(g^(2)+(v^(4))/(R^(2)))))`

C

`T=2pisqrt((L)/(sqrt(g^(2)+(v^(2))/(R))))`

D

`T=2pisqrt((L)/(g^(2)-(v^(4))/(R^(2))))`

Text Solution

Verified by Experts

The correct Answer is:
B
The bob of the pendulum has two accelerations:
(i) centripetal acceleration, `a_(c)=(v^(2))/(R)`
it acts horizontally.
(ii) Acceleration due to gravity=g. it acts vertically downwards.
The effective acceleration due to gravity.
`g'=sqrt(g^(2)+a_(c)^(2))=sqrt(g^(2)+((v^(2))/(R))^(2))=sqrt(g^(2)+(v^(4))/(R^(2)))`
`therefore`time period, `T=2pisqrt((L)/(g'))=2pisqrt((L)/(sqrt(g^(2)+(v^(4))/(R^(2)))))`
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