Answer:
Explanation:
Given
Density of Cork [tex]\rho _c=0.25\rho _{water}[/tex]
Considering V be the volume of Cork
Buoyant Force will be acting Upward and Weight is acting Downward along with T
Since density of water is more than cork therefore Cork will try to escape out of water but due to tension it will not
we can write as
[tex]\rho _{water}Vg-\rho _Cvg-T=0[/tex]
where T=tension
Thus Tension T is
[tex]T=Vg(\rho _{water}-\rho _c)[/tex]
Taking [tex]\rho _c[/tex] common
[tex]T=\rho _cVg(\frac{\rho _{water}}{\rho _c}-1)[/tex]
[tex]T=mg(\frac{\rho _{water}}{\rho _c}-1)[/tex]
[tex]T=mg(4-1)[/tex]
[tex]T=3mg[/tex]
