Answer
$\rho=8.247\times10^{2}kg/m^3$
Work Step by Step
Given that
Height of the storage tank $h=3.71m$
radius of the storage tank $r=1.22m$
Volume of the the storage tank $V=\pi r^2 h$
$V=3.14\times (1.22m)^2\times3.71m$
$V=17.33896m^3$
volume of the storage tank $V=17.33896m^3$
Mass of the industrial solvent liquid is given as $M=14300kg$
from $\rho=\frac{M}{V}$
density of the solvent is $\rho=\frac{14300kg}{17.33896m^3}=824.7322kg/m^3$
density of the solvent is $\rho=8.247\times10^{2}kg/m^3$
