A metallic sphere floats in an immiscible mixture of water `(rho_(w)=10^(3)kg//m^(3))` and a liquid `(rho_(L)=13.5xx10^(3)kg//m^(3))` such that its `(4)/(5)th` volume is in water and `(1)/(5)th` volume in the liquid. Find the density of metal.

A metallic sphere floats in an immiscible mixture of water (rho_(W) = 10^(3)kg//m^(3)) and a liquid (rho_(1) = 13.5 xx 10^(3) kg//m^(3)) such that is (4/5) th portion is in water and (1/5) th portion in the liquid. The density of metal is

A metallic sphere floats in immiscible mixture of water (density 10^(3) kgm^(-3)) and a liquid (density 8xx10^(3) kgm^(-3)) such that its (2//3) part is in water and (1//3) part in the liquid. The density of the metal is

A cube of 1 kg is floating at the interface of two liquids of density rho_(1) = 3//4 gm//cm^(3) and rho_(2) = 2.5 gm//cm^(3) The cube has (3//5)^(th) part in rho_(2) and (2//5)^(th) part in rho_(1) .Find the density of the cube .

A vessel contains two immiscible liquids of density rho_(1)=1000 kg//m^(3) and rho_(2)=1500kg//m^(3) . A solid block of volume V=10^(3)m^(3) and density d=800kg//m^(3) is tied to one end of a string and the outer end is tied to the bottom of the vessel as shown in figure. The block is immersed with two fifths of its volume in the liquid of lower density. The entire system is kept in an elevator which is moving upwards with an acceleration of a=g/2 . Find the tension in the string.

A tank is filled with water of density 10^(3)kg//m^(3) and oil of density 0.9xx10^(3)kg//m^(3) .The height of water layer is 1 m and that of the oil layer is 4 M . The velocity of efflux front an opening in the bottom of the tank is

Two immisible liquids are pured in a U-tube having densities rho_(1) = 1.0 xx 10^(2) kg//m^(2) and rho_(2)3.0 xx 10^(2) kg//m^(3) . Find the ratio of heights (of the liquids above their interface) (n_(1))/(h_(2))

A solid sphere of radius r is floating at the interface of two immiscible liquids of densities rho_(1) and rho_(2)(rho_(2) gt rho_(1)) , half of its volume lying in each. The height of the upper liquid column from the interface of the two liquids is h. The force exerted on the sphere by the upper liquid is (atmospheric pressure = p_(0) and acceleration due to gravity is g):

What fraction of an iceberg ice beneath the surface of the sea? Density of sea water (rho)=1.028xx10^(3)kg//m^(3) , density of ice d. =0.917xx10^(3)kg//m^(3)

A cubical tank of side 1 m is filled with 800 kg of a liquid. Find the density of liquid in kg m^(-3)

A cylindrical vessel of a very large cross sectional area is containing two immiscible liquids of density rho_(1)=600kg//m^(3) and rho_(2)=1200kg//m^(3) as shown in the figure. A small hole having cross sectional area 5cm^(2) is made in right side vertical wall as shown. Take atmospheric pressure as p_(0)=10^(5)N//m^(2), g=10m//s^(2) . For this situation mark out the correct statement (s). Take cross sectional area of the cylindrical vessel as 1000cm^(2) . Neglect the mass of the vessel.