Question:

Atoms of metals x, y, and z form face-centered cubic (fcc) unit cells of edge length Lx, body-centered cubic (bcc) unit cells of edge length Ly, and simple cubic unit cells of edge length Lz, respectively. If rz =\(\sqrt{\frac{3}{2}}\)ry ; ry\(\sqrt{\frac{8}{3}}\)rx ; Mz\(\frac{3}{2}\) My and MZ = 3Mx, then the correct statement(s) is(are)[Given: Mx, My and Mz are molar masses of metals x, y, and z, respectively. rx,ry, and rz are atomic radii of metals x, y, and z, respectively.]

Updated On: May 24, 2024
  • Packing efficiency of a unit cell of x> Packing efficiency of a unit cell of y > Packing efficiency of a unit cell of z
  • Ly > Lz
  • Lx > Ly
  • Density of x > Density of y 
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The Correct Option is A, B, D

Solution and Explanation

The correct options are (A),(B) and (D)
Given, \(r_z=\frac{\sqrt3}{2}r_y\) and \(r_y=\frac{8}{\sqrt3}r_x\)
\(\therefore\, r_z=\frac{\sqrt3}{2}\times\frac{8}{\sqrt3}r_x=4r_x\)
\(M_z=\frac{3}{2}M_y\)
\(M_z=3M_x\)
\(\therefore M_y=2M_x\)
Packing efficiency FCC>BCC>SC
Packing efficiency unit cell x>y>z
In the FCC unit cell, \(\sqrt2L_x=4r_x\)
\(\Rightarrow L_x=2\sqrt2 r_x\)
\(\therefore \sqrt3l_y=4r_y\Rightarrow L_y=\frac{4}{\sqrt3}r_y=\frac{4}{\sqrt3}\times\frac{8}{\sqrt3}r_x=\frac{32}{3}r_x\)
\(L_y=\frac{32}{3}r_x\)
\(\therefore\,l_z=2r_z\)\(=2\times4r_x=8r_x\)
\(l_x=2\sqrt2r_x\) and \(l_y=\frac{32}{3}r_x\)
\(\therefore l_z=8r_x\)
\(\therefore\,l_y>l_z>l_x\)
density of  x = \(d_x=\frac{zM_x}{(L_x)^3N_A}=\frac{4\times M_X}{(2\sqrt2)r_x)^3\times N_A}=\frac{M_X}{4\sqrt2 r^3xN_A}\)
density of y = \(d_y=\frac{zM_y}{(L_y)^3N_A}= \frac{2\times2M_X}{(\frac{32}{3}R_X)^3N_A}=\frac{108M_X}{32768r^3_xN_A}\)
\(\therefore\) density of x > density of y
 
 
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Concepts Used:

Solid State

Solids are substances that are featured by a definite shape, volume, and high density. In the solid-state, the composed particles are arranged in several manners. Solid-state, in simple terms, means "no moving parts." Thus solid-state electronic devices are the ones inclusive of solid components that don’t change their position. Solid is a state of matter where the composed particles are arranged close to each other. The composed particles can be either atoms, molecules, or ions. 

Solid State

Types of Solids:

Based on the nature of the order that is present in the arrangement of their constituent particles solids can be divided into two types;

  • Amorphous solids behave the same as super cool liquids due to the arrangement of constituent particles in short-range order. They are isotropic and have a broad melting point (range is about greater than 5°C).
  • Crystalline solids have a fixed shape and the constituent particles are arranged in a long-range order.