Chapter 14, Problem 16STP

Interpretation Introduction

Interpretation:

Volume of 0.125M ${\mathrm{NiCl}}_2$ solution is to be calculated which contains 3.25 g of ${\mathrm{NiCl}}_2$

Concept introduction:

The concentrations of solutions are expressed in different ways, all of them involved in the quantity of solute and the quantity of solution or solvent. Among them, molarity is widely used to express the concentration of solution.

In expression,

$\mathrm{Molarity}ofsolution=\frac{Numberofmolesofsolute}{Volumeofsolution(inlitre)}$

Again

$\mathrm{Number}ofmolesofsolute=\frac{Massofsolute}{molecularweightofsolute}$

Answer to Problem 16STP

Explanation:

Reason for correct option:

$\mathrm{Molarity}ofsolution=\frac{Numberofmolesofsolute}{Volumeofsolution(inlitre)}$

$\mathrm{Number}ofmolesofsolute=\frac{Massofsolute}{molecularweightofsolute}$

Molarity of ${\mathrm{NiCl}}_2$ solution = $\frac{NumberofmolesofNiC{l}_2}{VolumeofSolution}$

$\mathrm{Number}ofmolesofsolute=\frac{Massofsolute}{molecularweightofsolute}$

Number of moles of ${\mathrm{NiCl}}_2$ = $\frac{MassofNiC{l}_2}{MolecularweightofNiC{l}_2}$

Data given:

Mass of ${\mathrm{NiCl}}_2$ = 3.25 g

Molarity Of ${\mathrm{NiCl}}_2$ = 0.125M

Number of moles of ${\mathrm{NiCl}}_2$ = $\frac{3.25}{129.6}$ (Molcular weight of ${\mathrm{NiCl}}_2$ = 129.6 gm)

Molarity of ${\mathrm{NiCl}}_2$ solution = $\frac{NumberofmolesofNiC{l}_2}{VolumeofSolution}$

So, as it can be seen from the equation,

Volume of solution = $\frac{NumberofmolesofNiC{l}_2}{MolarityNiC{l}_2}$

= $\frac{3.25\times 1000mL}{129.6\times 1.25}$

=201mL

Reasons for incorrect options: As by using the equation for volume of solution calculation, it can be seen that,

Volume of solution = $\frac{NumberofmolesofNiC{l}_2}{MolarityNiC{l}_2}$

That is by putting all the correct values given volume calculated is,

= $\frac{3.25\times 1000mL}{129.6\times 1.25}$

=201mL

The other options,

a. 406 mL

b. 32.5 mL

c. 38.5 mL

d. 26.0 mL

Are incorrect as volume found to be 201mL.

Explanation of Solution

Reason for correct option:

$\mathrm{Molarity}ofsolution=\frac{Numberofmolesofsolute}{Volumeofsolution(inlitre)}$

$\mathrm{Number}ofmolesofsolute=\frac{Massofsolute}{molecularweightofsolute}$

Molarity of ${\mathrm{NiCl}}_2$ solution = $\frac{NumberofmolesofNiC{l}_2}{VolumeofSolution}$

$\mathrm{Number}ofmolesofsolute=\frac{Massofsolute}{molecularweightofsolute}$

Number of moles of ${\mathrm{NiCl}}_2$ = $\frac{MassofNiC{l}_2}{MolecularweightofNiC{l}_2}$

Data given:

Mass of ${\mathrm{NiCl}}_2$ = 3.25 g

Molarity Of ${\mathrm{NiCl}}_2$ = 0.125M

Number of moles of ${\mathrm{NiCl}}_2$ = $\frac{3.25}{129.6}$ (Molcular weight of ${\mathrm{NiCl}}_2$ = 129.6 gm)

Molarity of ${\mathrm{NiCl}}_2$ solution = $\frac{NumberofmolesofNiC{l}_2}{VolumeofSolution}$

So, as it can be seen from the equation,

Volume of solution = $\frac{NumberofmolesofNiC{l}_2}{MolarityNiC{l}_2}$

= $\frac{3.25\times 1000mL}{129.6\times 1.25}$

=201mL

Conclusion

Reasons for incorrect options: As by using the equation for volume of solution calculation, it can be seen that,

Volume of solution = $\frac{NumberofmolesofNiC{l}_2}{MolarityNiC{l}_2}$

That is by putting all the correct values given volume calculated is,

= $\frac{3.25\times 1000mL}{129.6\times 1.25}$

=201mL

The other options,

a. 406 mL

b. 32.5 mL

c. 38.5 mL

d. 26.0 mL

Are incorrect as volume found to be 201mL.