Atoms of metals $x$,$y$,and $z$ form face-centred cubic $(fcc)$ unit cell of edge length $L_x$,body-centred cubic $(bcc)$ unit cell of edge length $L_y$,and simple cubic unit cell of edge length $L_z$,respectively. If $r_z = \frac{\sqrt{3}}{2} r_y$; $r_y = \frac{8}{\sqrt{3}} r_x$; $M_z = \frac{3}{2} M_y$ and $M_z = 3 M_x$,then the correct statement$(s)$ is (are) [Given: $M_x$,$M_y$,and $M_z$ are molar masses of metals $x$,$y$,and $z$,respectively. $r_x$,$r_y$,and $r_z$ are atomic radii of metals $x$,$y$,and $z$,respectively.]
$(A)$ Packing efficiency of unit cell of $x >$ Packing efficiency of unit cell of $y >$ Packing efficiency of unit cell of $z$
$(B)$ $L_y > L_z$
$(C)$ $L_x > L_y$
$(D)$ Density of $x >$ Density of $y$
$(A)$ Packing efficiency of unit cell of $x >$ Packing efficiency of unit cell of $y >$ Packing efficiency of unit cell of $z$
$(B)$ $L_y > L_z$
$(C)$ $L_x > L_y$
$(D)$ Density of $x >$ Density of $y$
- A$A, B, D$
- B$A, B$
- C$A, B, C$
- D$A, C, D$
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Match the following:
List-$I$ List-$II$ $A$. $ABCABC...$ layers $I$. $F$-centres $B$. Thermodynamics defects $II$. $X$-ray diffraction $C$. $Farbenzenter$ $III$. Vacancy defects $D$. $Debye-Scherrer$ method $IV$. Semiconductors $V$. Silver
| List-$I$ | List-$II$ |
|---|---|
| $A$. $ABCABC...$ layers | $I$. $F$-centres |
| $B$. Thermodynamics defects | $II$. $X$-ray diffraction |
| $C$. $Farbenzenter$ | $III$. Vacancy defects |
| $D$. $Debye-Scherrer$ method | $IV$. Semiconductors |
| $V$. Silver |
$A$ mixture of $KCl$ and $KF$ is added to sodium chloride.
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