(C) For $BCC$ unit cell,the relation between radius $r$ and edge length $a$ is $r = \frac{\sqrt{3}}{4} a$. The volume of one spherical particle is giv

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(C) For $BCC$ unit cell,the relation between radius $r$ and edge length $a$ is $r = \frac{\sqrt{3}}{4} a$. The volume of one spherical particle is given by $V = \frac{4}{3} \pi r^3$. Substituting the value of $r$: $V = \frac{4}{3} \pi \left( \frac{\sqrt{3}}{4} a \right)^3 = \frac{4}{3} \pi \left( \frac{3 \sqrt{3} a^3}{64} \right) = \frac{\sqrt{3} \pi a^3}{16}$.

Class 12 Chemistry Solid State Mathematical analysis of cubic system and Bragg’s equation

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What is the volume of one particle in $BCC$ structure if '$a$' is edge length?

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A
$\frac{\pi a^3}{3 \sqrt{2}}$
B
$\frac{\pi a^3}{12 \sqrt{2}}$
C
$\frac{\sqrt{3} \pi a^3}{16}$
D
$\frac{\sqrt{3} \pi a^3}{8}$

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Mathematical analysis of cubic system and Bragg’s equation

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What is the volume of one particle in $BCC$ structure if '$a$' is edge length?

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In an ionic compound with a $bcc$ structure, the distance between the two nearest ions is $173 \, pm$. What is the edge length of the unit cell in $pm$?

$A$ metal crystallizes in both $fcc$ and $bcc$ lattice structures with unit cell edge lengths of $380 \ pm$ and $300 \ pm$ respectively. The ratio of their densities $(bcc/fcc)$ is:

What is the atomic radius of an element if it crystallises in a $BCC$ structure with an edge length of unit cell $287 \ pm$ (in $pm$)?

Calculate the volume of a simple cubic unit cell if the radius of the particle in it is $400 \ pm$.

An element crystallizes in an $fcc$ structure with an edge length of $200 \, pm$. If $200 \, g$ of this element contains $24 \times 10^{23}$ atoms,calculate its density in $g \, cm^{-3}$.

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