250+ TOP MCQs on Miller Indices and Answers

3. For pane (1 1 1) of FCC having a lattice parameter ‘a’, planar atomic density is given by?
a) 2.31/a²
b) 2.31/a³
c) 1.31/a²
d) 1.31/a³
Answer: a
Clarification: Upon visualizing (1 1 1) plane of FCC, one can identify that there the equilibrium triangle (1 1 1) of FCC consists 2 atoms (¹⁄₆×3 + ¹⁄₂×3=2). Also, the area of the equilibrium triangle (1 1 1) is 0.886 a².
Therefore, the number of atoms per square inch which is nothing but its planar density = (frac{2}{0.866 a^2} = frac{2.31}{a^2}).

4. For pane (1 1 1) of BCC having a lattice parameter ‘a’, planar atomic density is given by?
a) 1.07/a²
b) 0.58/a²
c) 2.07/a²
d) 0.78/a²
Answer: b
Clarification: From the geometry of the triangle (1 1 1), it is clear that it has 0.5 atoms in it (1/6×3 = 0.5) and the area of the triangle (1 1 1) is 0.866 a².
Therefore, the number of atoms per square inch which is nothing but its planar density = (frac{0.5}{0.866 a^2} = frac{0.58}{a^2}).

5. For pane (1 0 0) of BCC having a lattice parameter ‘a’, planar atomic density is given by?
a) 1/a³
b) 2/a²
c) 3/a⁴
d) 1/a²
Answer: d
Clarification: The atomic arrangement on square (1 0 0) of BCC indicates that it has 1 atom and area of this square (1 0 0) is a². Thus, its planar density = 1/a².

6. For pane (1 1 0) of BCC having a lattice parameter ‘a’, planar atomic density is given by?
a) 3.690/a²
b) 2.312/a²
c) 1.414/a²
d) 0.580/a²
Answer: c
Clarification: From the geometry of the rectangle (1 1 0), it is clear that it has 2 atoms in it (¹⁄₄×4+1=2) and the area of the rectangle (1 1 0) is 0.866 a².
Therefore, the number of atoms per square inch which is nothing but its planar density = (frac{2}{1.414 a^2} = frac{1.414}{a^2}).

7. For pane (1 1 0) of SC having a lattice parameter ‘a’, planar atomic density is given by?
a) 0.508/a²
b) 0.707/a²
c) 0.707/a³
d) 0.508/a³
Answer: b
Clarification: The atomic arrangement on (1 1 0) plane in simple cubic (SC) unit cell indicates that it has 1 atom (¹⁄₄×4=1) in this plane having an area = (sqrt{2} a^2).
Therefore, the number of atoms per square inch which is nothing but its planar density = (frac{1}{1.414 a^2} = frac{0.707}{a^2}).

8. For pane (1 1 1) of SC having a lattice parameter ‘a’, planar atomic density is given by?
a) 0.58/a²
b) 0.78/a³
c) 0.68/a²
d) 0.88/a²
Answer: a
Clarification: The atomic arrangement on triangle (1 1 1) in simple cubic (SC) unit cell indicates that it has 0.5 atoms (¹⁄₆×3=0.5) in this plane having an area = 0.866 a².
Therefore, the number of atoms per square inch which is nothing but its planar density = (frac{0.5}{0.866 a^2} = frac{0.577}{a^2}).

9. Which of the following equation describes Bragg’s law of diffraction? (Assume that all symbols have their usual meaning.)
a) 2d sinθ = λ
b) 2d = nλ
c) 2d = nλ sinθ
d) 2d sinθ = nλ
Answer: d
Clarification: Bragg’s law, which describes the constructive interference conditions for θ to be at its strongest: nλ = 2d sinθ, where λ is the wavelength of the incident wave and and n is the order of diffraction which is always a positive integer and d is the interplanar spacing and θ = angle of diffraction. This equation can be easily derived upon constructing a basic wave reflection diagram taking incident angle as θ.

10. Powder X-ray technique can be used to determine crystal structures.
a) True
b) False
Answer: a
Clarification: The powder method is used to determine the values of lattice parameters accurately. As we know, lattice parameters defines the axis system, which in turns can predict the crystal structure of the powder sampled.

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