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A block of silver of mass 4 kg haning fr...

A block of silver of mass 4 kg haning from a string is immersed in a liquid of relative density 0.72. If releative density of silver is 10, then tension in the string will be (take `g = 10 m//s^(2)`)

A

37.12 N

B

42 N

C

73 N

D

21 N

Text Solution

Verified by Experts

The correct Answer is:
A
Let `rho_(S),rho_(L)` be the density of silver and liquid Also m and V be the mass and volume of silver block
`:.` Tension in string = mg - bouyant
force
`T = rho_(S) Vg - rho_(L) Vg = (rho_(S) - rho_(L))Vg`
Also `V = (m)/(rho s)`
`T = ((rho_(S)-rho_(s))/(rhos))mg`
`=((10-0.72)xx10^(3))/(10xx10^(8))xx4xx10=37.12 N`.
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