In the arrangement shown in figure, pull...

In the arrangement shown in figure, pulleys are light and spring are ideal. `K_(1)`, `k_(2)`, `k_(3)`and `k_(4)` are force constant of the spring. Calculate period of small vertical oscillations of block of mass `m`.

Text Solution

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The correct Answer is:

A, B, C, D

Let block be displacement by x than displacement in springs be
`x_(1),x_(2),x_(3)` and `x_(4)`
Such that `x = 2x_(1) + 2x_(2) + 2x_(3) + 2x_(4)`
Now let restoring force on m be `F = kx` then
`2f = k_(1)x_(1) = k_(2)x_(2) = k_(3)x_(3) = k_(4)x_(4)`
`rArr F/k = (4F)/(k_(1)) + (4F)/(k_(2)) + (4F)/(k_(3)) + (4F)/(k_(4))`
`rArr 1/k = 4(1/(k_(1)) + 1/(k_(2)) + 1/(k_(3) ) + 1/(k_(4)))`

`T = 2pisqrt((m)/(k)) = 2pisqrt(4m(1/(k_(1))+(1)/(k_(2)) + 1/(k_(3)) + 1/(k_(4))))`

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One fourth length of a spring of force constant k is cut away. The force constant of the remaining spring will be what ?

`(3)/(4)k`

`(4)/(3)k`

`k`

`4k`

Two springs of spring constant k_(1)" and "k_(2) are joined in series. Hence its equivalent spring constant of the combination is…………

`(k_(1)k_(2))/(k_(1)+k_(2))`

`k_(1)k_(2)`

`(k_(1)k_(2))/(2)`

`k_(1)+k_(2)`

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In the arrangement shown in figure, pulleys are light and spring are ideal. `K_(1)`, `k_(2)`, `k_(3)`and `k_(4)` are force constant of the spring. Calculate period of small vertical oscillations of block of mass `m`.

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One fourth length of a spring of force constant k is cut away. The force constant of the remaining spring will be what ?

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