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#Engineering

Solution of two components containing n₁ moles of 1st component and n₂ moles of 2nd component is prepared, M1 and M2 are molecular weight of component 1 and 2 respectively. If d is the density of the solution in g mL^-1, C₂ is the molarity and x₂ is the mole fraction of 2nd component, C₂ can be expressed as:
Option: 1 $c_{2}=\frac{dx_{2}}{M_{2}+x_{2}(M_{2}-M_{1})}$

Option: 2 $c_{2}=\frac{dx_{2}}{M_{2}+x_{2}(M_{2}-M_{1})}$

Option: 3 $c_{2}=\frac{dx_{2}}{M_{2}+x_{2}(M_{2}-M_{1})}$

Option: 4 $c_{2}=\frac{dx_{2}}{M_{2}+x_{2}(M_{2}-M_{1})}$

Option: 5 $c_{2}=\frac{dx_{1}}{M_{2}+x_{2}(M_{2}-M_{1})}$
Option: 6 $c_{2}=\frac{dx_{1}}{M_{2}+x_{2}(M_{2}-M_{1})}$
Option: 7 $c_{2}=\frac{dx_{1}}{M_{2}+x_{2}(M_{2}-M_{1})}$
Option: 8 $c_{2}=\frac{dx_{1}}{M_{2}+x_{2}(M_{2}-M_{1})}$
Option: 9 $c_{2}=\frac{1000dx_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 10 $c_{2}=\frac{1000dx_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 11 $c_{2}=\frac{1000dx_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 12 $c_{2}=\frac{1000dx_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 13 $c_{2}=\frac{1000x_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 14 $c_{2}=\frac{1000x_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 15 $c_{2}=\frac{1000x_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$
Option: 16 $c_{2}=\frac{1000x_{2}}{M_{1}+x_{2}(M_{2}-M_{1})}$

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