(B) Given:Mass of solute $(w) = 120 \ g$Mass of solvent $= 1000 \ g$Molar mass of solute $(M_w) = 60 \ g/mol$Density of solution $(d) = 1.12 \ g/mL$To

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(B) Given:Mass of solute $(w) = 120 \ g$Mass of solvent $= 1000 \ g$Molar mass of solute $(M_w) = 60 \ g/mol$Density of solution $(d) = 1.12 \ g/mL$Total mass of solution $= 1000 \ g + 120 \ g = 1120 \ g$Volume of solution $(V) = \frac{\text{Mass of solution}}{d} = \frac{1120 \ g}{1.12 \ g/mL} = 1000 \ mL = 1 \ L$Moles of solute $(n) = \frac{w}{M_w} = \frac{120 \ g}{60 \ g/mol} = 2 \ mol$Molarity $(M) = \frac{n}{V(L)} = \frac{2 \ mol}{1 \ L} = 2 \ M$

Class 11 Chemistry Some Basic Concepts of Chemistry Chemical stoichiometry

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Dissolving $120 \ g$ of a compound (mol. wt. $60$) in $1000 \ g$ of water gave a solution of density $1.12 \ g/mL$. The molarity of the solution is ............ $M$.

JEE MAIN 2014 All JEE MAIN

A
$1$
B
$2$
C
$2.50$
D
$4$

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Some Basic Concepts of Chemistry

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Chemical stoichiometry

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Dissolving $120 \ g$ of a compound (mol. wt. $60$) in $1000 \ g$ of water gave a solution of density $1.12 \ g/mL$. The molarity of the solution is ............ $M$.

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