MHT CET · Chemistry · Solid State
What is the volume occupied by particles in BCC structure if ' \(a\) ' is edge length of unit cell?
- A \(\frac{\sqrt{3} \pi \mathrm{a}^3}{8}\)
- B \(\frac{\pi \mathrm{a}^3}{3 \sqrt{2}}\)
- C \(\frac{\pi \mathrm{a}^3}{12 \sqrt{2}}\)
- D \(\frac{\sqrt{3} \pi \mathrm{a}^3}{16}\)
Answer & Solution
Correct Answer
(A) \(\frac{\sqrt{3} \pi \mathrm{a}^3}{8}\)
Step-by-step Solution
Detailed explanation
Number of particles in BCC unit cell \((Z)=2\)
Relation between edge length and radius,
\(
\begin{aligned}
& \sqrt{3} \mathrm{a}=4 \mathrm{r} \\
& \mathrm{r}=\frac{\sqrt{3} \mathrm{a}}{4}
\end{aligned}
\)
Volume occupied by particles in BCC \(=2 \times\) Volume of one atom
\(
\begin{aligned}
& =2 \times \frac{4}{3} \pi \mathrm{r}^3 \\
& =2 \times \frac{4}{3} \pi\left(\frac{\sqrt{3} \mathrm{a}}{4}\right)^3 \\
& =\frac{2 \times 4}{3} \times \pi \times \frac{3 \sqrt{3} \mathrm{a}^3}{64} \\
& =\frac{\sqrt{3} \pi \mathrm{a}^3}{8}
\end{aligned}
\)
Relation between edge length and radius,
\(
\begin{aligned}
& \sqrt{3} \mathrm{a}=4 \mathrm{r} \\
& \mathrm{r}=\frac{\sqrt{3} \mathrm{a}}{4}
\end{aligned}
\)
Volume occupied by particles in BCC \(=2 \times\) Volume of one atom
\(
\begin{aligned}
& =2 \times \frac{4}{3} \pi \mathrm{r}^3 \\
& =2 \times \frac{4}{3} \pi\left(\frac{\sqrt{3} \mathrm{a}}{4}\right)^3 \\
& =\frac{2 \times 4}{3} \times \pi \times \frac{3 \sqrt{3} \mathrm{a}^3}{64} \\
& =\frac{\sqrt{3} \pi \mathrm{a}^3}{8}
\end{aligned}
\)
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