(a) $\boldsymbol{w} / \boldsymbol{w}$ (mass percentage) Mass percentage of a component of a solution can be expressed as

$$\text { Mass } \% \text { of component }=\frac{\text { mass of component in the solution }}{\text { total mass of solution }} \times 100$$

Thus, the percentage by mass means the mass of the solute in grams present in 100 g of the solution.

(b) $V / V$ (volume percentage) is defined as

$$\text { Volume percentage }=\frac{\text { volume of the component }}{\text { total volume of solution }} \times 100$$

Thus, volume percentage means the volume of the liquid solute in $\mathrm{cm}^3$ present in $100 \mathrm{~cm}^3$ of the solution.

(c) $\boldsymbol{w} / \boldsymbol{V}$ (mass by volume percentage) = mass of solute dissolved in 100 mL of solution.

(d) ppm (parts per million) This parametre is used to express the concentration of very dilute solution.

$$\begin{aligned} & \text { ppm }=\frac{\text { number of parts of component }}{\begin{array}{c} \text { total number of parts of all component } \\ \text { of solution } \end{array}} \times 10^6 \\ & \hline \end{aligned}$$

(e) $\chi$ (mole fraction) Mole fraction is an unitless quantity used to determine extent of any particular component present in total solution.

$$\chi=\frac{\text { number of moles of the component }}{\text { total number of moles of all components }}$$

(f) $\boldsymbol{M}$ (molarity) Number of moles of solute dissolved in per litre of solution is known as molarity.

$$M=\frac{\text { number of moles of solute }}{\text { volume of solution in litre }}$$

(g) $m$ (Molality) Molality of any solution can be defined as number of moles of solute dissolved in per kg of solvent.

$$m=\frac{\text { number of moles of solute }}{\text { mass of solvent in } \mathrm{kg}}$$