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Unit

SOLID SST
1
TATE

I. Multiple Choice Questions (Type-I)

1. Which of the following conditions favours the existence of a substance in the
solid state?
(i) High temperature
(ii) Low temperature
(iii) High thermal energy
(iv) Weak cohesive forces
2. Which of the following is not a characteristic of a crystalline solid?
(i) Definite and characteristic heat of fusion.
(ii) Isotropic nature.
(iii) A regular periodically repeated pattern of arrangement of constituent
particles in the entire crystal.
(iv) A true solid
3. Which of the following is an amorphous solid?
(i) Graphite (C)
(ii) Quartz glass (SiO2)
(iii) Chrome alum
(iv) Silicon carbide (SiC)
4. Which of the following arrangements shows schematic alignment of magnetic
moments of antiferromagnetic substances?

(i)

(ii)

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(iii)

(iv)

5. Which of the following is true about the value of refractive index of quartz glass?
(i) Same in all directions
(ii) Different in different directions
(iii) Cannot be measured
(iv) Always zero
6. Which of the following statement is not true about amorphous solids?
(i) On heating they may become crystalline at certain temperature.
(ii) They may become crystalline on keeping for long time.
(iii) Amorphous solids can be moulded by heating.
(iv) They are anisotropic in nature.
7. The sharp melting point of crystalline solids is due to ___________.
(i) a regular arrangement of constituent particles observed over a short
distance in the crystal lattice.
(ii) a regular arrangement of constituent particles observed over a long
distance in the crystal lattice.
(iii) same arrangement of constituent particles in different directions.
(iv) different arrangement of constituent particles in different directions.
8. Iodine molecules are held in the crystals lattice by ____________.
(i) london forces
(ii) dipole-dipole interactions
(iii) covalent bonds
(iv) coulombic forces
9. Which of the following is a network solid?
(i) SO2 (Solid)
(ii) I2
(iii) Diamond
(iv) H2O (Ice)
10. Which of the following solids is not an electrical conductor?
(A) Mg (s) (B) TiO (s) (C) I2 (s) (D) H2O (s)

(i) (A) only

(ii) (B) Only
(iii) (C) and (D)
(iv) (B), (C) and (D)
Exemplar Problems, Chemistry 2

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11. Which of the following is not the characteristic of ionic solids?

(i) Very low value of electrical conductivity in the molten state.
(ii) Brittle nature.
(iii) Very strong forces of interactions.
(iv) Anisotropic nature.

12. Graphite is a good conductor of electricity due to the presence of __________.

(i) lone pair of electrons
(ii) free valence electrons
(iii) cations
(iv) anions

13. Which of the following oxides behaves as conductor or insulator depending

upon temperature?
(i) TiO
(ii) SiO2
(iii) TiO3
(iv) MgO

14. Which of the following oxides shows electrical properties like metals?
(i) SiO2
(ii) MgO
(iii) SO2(s)
(iv) CrO2

15. The lattice site in a pure crystal cannot be occupied by _________.

(i) molecule
(ii) ion
(iii) electron
(iv) atom

16. Graphite cannot be classified as __________.

(i) conducting solid
(ii) network solid
(iii) covalent solid
(iv) ionic solid

17. Cations are present in the interstitial sites in __________.

(i) Frenkel defect
(ii) Schottky defect
(iii) Vacancy defect
(iv) Metal deficiency defect
3 Solid State

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18. Schottky defect is observed in crystals when __________.

(i) some cations move from their lattice site to interstitial sites.
(ii) equal number of cations and anions are missing from the lattice.
(iii) some lattice sites are occupied by electrons.
(iv) some impurity is present in the lattice.
19. Which of the following is true about the charge acquired by p-type
semiconductors?
(i) positive
(ii) neutral
(iii) negative
(iv) depends on concentration of p impurity
20. To get a n-type semiconductor from silicon, it should be doped with a
substance with valence__________.
(i) 2
(ii) 1
(iii) 3
(iv) 5
21. The total number of tetrahedral voids in the face centred unit cell is __________.
(i) 6
(ii) 8
(iii) 10
(iv) 12
22. Which of the following point defects are shown by AgBr(s) crystals?

(A) Schottky defect (B) Frenkel defect

(C) Metal excess defect (D) Metal deficiency defect

(i) (A) and (B)

(ii) (C) and (D)
(iii) (A) and (C)
(iv) (B) and (D)
23. In which pair most efficient packing is present?
(i) hcp and bcc
(ii) hcp and ccp
(iii) bcc and ccp
(iv) bcc and simple cubic cell
24. The percentage of empty space in a body centred cubic arrangement is
________.
(i) 74
Exemplar Problems, Chemistry 4

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(ii) 68
(iii) 32
(iv) 26

25. Which of the following statement is not true about the hexagonal close
packing?
(i) The coordination number is 12.
(ii) It has 74% packing efficiency.
(iii) Tetrahedral voids of the second layer are covered by the spheres of the
third layer.
(iv) In this arrangement spheres of the fourth layer are exactly aligned with
those of the first layer.

26. In which of the following structures coordination number for cations and
anions in the packed structure will be same?
–
(i) Cl ion form fcc lattice and Na+ ions occupy all octahedral voids of the
unit cell.
–
(ii) Ca2+ ions form fcc lattice and F ions occupy all the eight tetrahedral
voids of the unit cell.
(iii) O2– ions form fcc lattice and Na+ ions occupy all the eight tetrahedral
voids of the unit cell.
2– 2+
(iv) S ions form fcc lattice and Zn ions go into alternate tetrahedral voids
of the unit cell.

27. What is the coordination number in a square close packed structure in two
dimensions?
(i) 2
(ii) 3
(iii) 4
(iv) 6

28. Which kind of defects are introduced by doping?

(i) Dislocation defect
(ii) Schottky defect
(iii) Frenkel defects
(iv) Electronic defects

29. Silicon doped with electron-rich impurity forms ________.

(i) p-type semiconductor
(ii) n-type semiconductor
(iii) intrinsic semiconductor
(iv) insulator

5 Solid State

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30. Which of the following statements is not true?

(i) Paramagnetic substances are weakly attracted by magnetic field.
(ii) Ferromagnetic substances cannot be magnetised permanently.
(iii) The domains in antiferromagnetic substances are oppositely oriented
with respect to each other.
(iv) Pairing of electrons cancels their magnetic moment in the diamagnetic
substances.

31. Which of the following is not true about the ionic solids?
(i) Bigger ions form the close packed structure.
(ii) Smaller ions occupy either the tetrahedral or the octahedral voids
depending upon their size.
(iii) Occupation of all the voids is not necessary.
(iv) The fraction of octahedral or tetrahedral voids occupied depends upon
the radii of the ions occupying the voids.

32. A ferromagnetic substance becomes a permanent magnet when it is placed in

a magnetic field becuase ________.
(i) all the domains get oriented in the direction of magnetic field.
(ii) all the domains get oriented in the direction opposite to the direction of
magnetic field.
(iii) domains get oriented randomly.
(iv) domains are not affected by magnetic field.

33. The correct order of the packing efficiency in different types of unit cells is ________.
(i) fcc < bcc < simple cubic
(ii) fcc > bcc > simple cubic
(iii) fcc < bcc > simple cubic
(iv) bcc < fcc > simple cubic

34. Which of the following defects is also known as dislocation defect?

(i) Frenkel defect
(ii) Schottky defect
(iii) Non-stoichiometric defect
(iv) Simple interstitial defect

35. In the cubic close packing, the unit cell has ________.
(i) 4 tetrahedral voids each of which is shared by four adjacent unit cells.
(ii) 4 tetrahedral voids within the unit cell.
(iii) 8 tetrahedral voids each of the which is shared by four adjacent unit
cells.
(iv) 8 tetrahedral voids within the unit cells.

Exemplar Problems, Chemistry 6

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36. The edge lengths of the unit cells in terms of the radius of spheres constituting
fcc,bcc and simple cubic unit cell are respectively________.

4r
(i) 2 2r , , 2r
3

4r
(ii) , 2 2r ,2r
3

4r
(iii) 2r , 2 2r ,
3

4r
(iv) 2r , ,2 2r
3

37. Which of the following represents correct order of conductivity in solids?

(i) κ metals >> κ insulators< κsemiconductors
(ii) κmetals<< κinsulators < κsemiconductors
(iii) κmetals κsemiconductors > κinsulators = zero
(iv) κ metals < κ semiconductors > κinsulators ≠ zero

II. Multiple Choice Questions (Type-II)

Note : In the following questions two or more options may be correct.

38. Which of the following is not true about the voids formed in 3 dimensional
hexagonal close packed structure?
(i) A tetrahedral void is formed when a sphere of the second layer is present
above triangular void in the first layer.
(ii) All the triangular voids are not covered by the spheres of the second
layer.
(iii) Tetrahedral voids are formed when the triangular voids in the second
layer lie above the triangular voids in the first layer and the triangular
shapes of these voids do not overlap.
(iv) Octahedral voids are formed when the triangular voids in the second
layer exactly overlap with similar voids in the first layer.

39. The value of magnetic moment is zero in the case of antiferromagnetic

substances because the domains ________.
(i) get oriented in the direction of the applied magnetic field.
(ii) get oriented opposite to the direction of the applied magnetic field.
(iii) are oppositely oriented with respect to each other without the application
of magnetic field.
(iv) cancel out each other’s magnetic moment.
7 Solid State

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40. Which of the following statements are not true?

(i) Vacancy defect results in a decrease in the density of the substance.
(ii) Interstitial defects results in an increase in the density of the substance.
(iii) Impurity defect has no effect on the density of the substance.
(iv) Frankel defect results in an increase in the density of the substance.

41. Which of the following statements are true about metals?

(i) Valence band overlaps with conduction band.
(ii) The gap between valence band and conduction band is negligible.
(iii) The gap between valence band and conduction band cannot be
determined.
(iv) Valence band may remain partially filled.

42. Under the influence of electric field, which of the following statements is true
about the movement of electrons and holes in a p-type semi conductor?
(i) Electron will move towards the positvely charged plate through electron
holes.
(ii) Holes will appear to be moving towards the negatively charged plate.
(iii) Both electrons and holes appear to move towards the positively charged
plate.
(iv) Movement of electrons is not related to the movement of holes.

43. Which of the following statements are true about semiconductors?

(i) Silicon doped with electron rich impurity is a p-type semiconductor.
(ii) Silicon doped with an electron rich impurity is an n-type semiconductor.
(iii) Delocalised electrons increase the conductivity of doped silicon.
(iv) An electron vacancy increases the conductivity of n-type semiconductor.

44. An excess of potassium ions makes KCl crystals appear violet or lilac in colour
since ________.
(i) some of the anionic sites are occupied by an unpaired electron.
(ii) some of the anionic sites are occupied by a pair of electrons.
(iii) there are vacancies at some anionic sites.
(iv) F-centres are created which impart colour to the crystals.

45. The number of tetrahedral voids per unit cell in NaCl crystal is ________.
(i) 4
(ii) 8
(iii) twice the number of octahedral voids.
(iv) four times the number of octahedral voids.

Exemplar Problems, Chemistry 8

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46. Amorphous solid can also be called ________.

(i) pseudo solids
(ii) true solids
(iii) super cooled liquids
(iv) super cooled solids

47. A perfect crystal of silicon (Fig. 1.1)

is doped with some elements as given
in the options. Which of these options
show n-type semiconductors?

Fig. 1.1

(i) (ii)

(iii) (iv)

48. Which of the following statements are correct?

(i) Ferrimagnetic substances lose ferrimagnetism on heating and become
paramagnetic.
(ii) Ferrimagnetic substances do not lose ferrimagnetism on heating and
remain ferrimagnetic.
(iii) Antiferromagnetic substances have domain structures similar to
ferromagnetic substances and their magnetic moments are not cancelled
by each other.
(iv) In ferromagnetic substances all the domains get oriented in the direction
of magnetic field and remain as such even after removing magnetic field.

9 Solid State

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49. Which of the following features are not shown by quartz glass?
(i) This is a crystalline solid.
(ii) Refractive index is same in all the directions.
(iii) This has definite heat of fusion.
(iv) This is also called super cooled liquid.

50. Which of the following cannot be regarded as molecular solid?

(i) SiC (Silicon carbide)
(ii) AlN
(iii) Diamond
(iv) I2

51. In which of the following arrangements octahedral voids are formed?

(i) hcp
(ii) bcc
(iii) simple cubic
(iv) fcc
52. Frenkel defect is also known as ________.
(i) stoichiometric defect
(ii) dislocation defect
(iii) impurity defect
(iv) non-stoichometric defect
53. Which of the following defects decrease the density?
(i) Interstitial defect
(ii) Vacancy defect
(iii) Frankel defect
(iv) Schottky defect

III. Short Answer Type

54. Why are liquids and gases categorised as fluids?
55. Why are solids incompressible?
56. Inspite of long range order in the arrangement of particles why are the crystals
usually not perfect?
57. Why does table salt, NaCl, some times appear yellow in colour?
58. Why is FeO (s) not formed in stoichiometric composition?
59. Why does white ZnO (s) becomes yellow upon heating?

Exemplar Problems, Chemistry 10

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60. Why does the electrical conductivity of semiconductors increase with rise in
temperature?
61. Explain why does conductivity of germanium crystals increase on doping
with galium.
62. In a compound, nitrogen atoms (N) make cubic close packed lattice and metal
atoms (M) occupy one-third of the tetrahedral voids present. Determine the
formula of the compound formed by M and N?
63. Under which situations can an amorphous substance change to crystalline form?

IV. Matching Type

Note : In the following questions match the items given in Column I with
the items given in Column II. In some questions more than one item of
Column I and Column II may match.

64. Match the defects given in Column I with the statements in given Column II.
Column I Column II
(i) Simple vacancy defect (a) shown by non-ionic solids and
increases density of the solid.
(ii) Simple interstitial defect (b) shown by ionic solids and decreases
density of the solid.
(iii) Frenkel defect (c) shown by non ionic solids and density
of the solid decreases
(iv) Schottky defect (d) shown by ionic solids and density of
the solid remains the same.
65. Match the type of unit cell given in Column I with the features given in
Column II.
Column I Column II
(i) Primitive cubic unit cell (a) Each of the three perpendicular
edges compulsorily have the different
edge length i.e; a≠b≠c.
(ii) Body centred cubic unit cell (b) Number of atoms per unit cell is one.
(iii) Face centred cubic unit cell (c) Each of the three perpendicular
edges compulsorily have the same
edge length i.e; a = b = c
(iv) End centred orthorhombic (d) In addition to the contribution from
unit cell the corner atoms the number of atoms
present in a unit cell is one.
(e) In addition to the contribution from
the corner atoms the number of
atoms present in a unit cell is three.
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66. Match the types of defect given in Column I with the statement given in
Column II.
Column I Column II
(i) Impurity defect (a) NaCl with anionic sites called
F-centres
(ii) Metal excess defect (b) FeO with Fe3+
(iii) Metal deficiency defect (c) NaCl with Sr2+ and some cationic sites
vacant

67. Match the items given in Column I with the items given in Column II.
Column I Column II
(i) Mg in solid state (a) p-Type semiconductor
(ii) MgCl2 in molten state (b) n-Type semiconductor
(iii) Silicon with phosphorus (c) Electrolytic conductors
(iv) Germanium with boron (d) Electronic conductors

68. Match the type of packing given in Column I with the items given in Column II.
Column I Column II
(i) Square close packing in (a) Triangular voids
two dimensions
(ii) Hexagonal close packing (b) Pattern of spheres is repeated in
in two dimensions every fourth layer
(iii) Hexagonal close packing in (c) Coordination number 4
three dimensions
(iv) Cubic close packing in (d) Pattern of sphere is repeated in
three dimensions alternate layers

V. Assertion and Reason Type

Note : In the following questions a statement of assertion followed by a
statement of reason is given. Choose the correct answer out of the following
choices.
(i) Assertion and reason both are correct statements and reason is correct
explanation for assertion.
(ii) Assertion and reason both are correct statements but reason is not correct
explanation for assertion.
(iii) Assertion is correct statement but reason is wrong statement.
(iv) Assertion is wrong statement but reason is correct statement.

Exemplar Problems, Chemistry 12

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69. Assertion : The total number of atoms present in a simple cubic unit cell
is one.
Reason : Simple cubic unit cell has atoms at its corners, each of which
is shared between eight adjacent unit cells.
70. Assertion : Graphite is a good conductor of electricity however diamond
belongs to the category of insulators.
Reason : Graphite is soft in nature on the other hand diamond is very
hard and brittle.
71. Assertion : Total number of octahedral voids present in unit cell of cubic
close packing including the one that is present at the body
centre, is four.
Reason : Besides the body centre there is one octahedral void present
at the centre of each of the six faces of the unit cell and each
of which is shared between two adjacent unit cells.
72. Assertion : The packing efficiency is maximum for the fcc structure.
Reason : The cordination number is 12 in fcc structures.
73. Assertion : Semiconductors are solids with conductivities in the
intermediate range from 10–6 – 104 ohm–1m–1.
Reason : Intermediate conductivity in semiconductor is due to partially
filled valence band.

VI. Long Answer Type

74. With the help of a labelled diagram show that there are four octahedral voids
per unit cell in a cubic close packed structure.
75. Show that in a cubic close packed structure, eight tetrahedral voids are present
per unit cell.
76. How does the doping increase the conductivity of semiconductors?
77. A sample of ferrous oxide has actual formula Fe0.93O1.00. In this sample what
2+
fraction of metal ions are Fe ions? What type of nonstoichiometric defect is
present in this sample?

13 Solid State

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ANSWERS
I. Multiple Choice Questions (Type-I)

1. (ii) 2. (ii) 3. (ii) 4. (iv) 5. (i) 6. (iv)

7. (ii) 8. (i) 9. (iii) 10. (iii) 11. (i) 12. (ii)
13. (iii) 14. (iv) 15. (iii) 16. (iv) 17. (i) 18. (ii)
19. (ii) 20. (iv) 21. (ii) 22. (i) 23. (ii) 24. (iii)
25. (iv) 26. (i) 27. (iii) 28. (iv) 29. (ii) 30. (ii)
31. (iv) 32. (i) 33. (ii) 34. (i) 35. (iv) 36. (i)
37. (i)

II. Multiple Choice Questions (Type-II)

38. (iii), (iv) 39. (iii), (iv) 40. (iii), (iv) 41. (i), (ii), (iv)

42. (i), (ii) 43. (ii), (iii) 44. (i), (iv) 45. (ii), (iii)

46. (i), (iii) 47. (i), (iii) 48. (i), (iv) 49. (i), (iii)

50. (i), (ii), (iii) 51. (i), (iv) 52. (i), (ii) 53. (ii), (iv)

III. Short Answer Type

54. The liquids and gases have a property to flow i.e. the molecules can move
past and tumble over one another freely. Hence, they have been
categorised as fluids.
55. The distance between the constituent particles (atoms, ions, molecules
etc.) is very less in solids. On bringing them still closer repulsion will start
between electron clouds of these particles. Hence, they cannot be brought
further close to each other.
56. Crystals have long range repeated pattern of arrangement of constitutent
particles but in the process of crystallisation some deviations from the
ideal arrangement (i.e. defects) may be introduced, therefore, crystals are
usually not perfect.
57. Yellow colour in sodium chloride is due to metal excess defect due to
which unpaired electrons occupy anionic sites. These sites are called
F-centres. These electrons absorb energy from the visible region for the
excitation which makes crystal appear yellow.
58. In the crystals of FeO, some of the Fe2+ cations are replaced by Fe3+ ions.
Three Fe2+ ions are replaced by two Fe3+ ions to make up for the loss of
positive charge. Eventually there would be less amount of metal as
compared to stoichiometric proportion.
Exemplar Problems, Chemistry 14

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59. On heating ZnO loses oxygen according to the following reaction.

heating 1
ZnO ⎯⎯⎯⎯⎯
→ Zn +
2+ –
O2 +2e
2

Zn2+ ions and electrons move to interstitial

sites and F-centres are created which impart
yellow colour to ZnO(s).
60. The gap between conduction band and
valence band is small in semiconductors
(Fig. 1.1), therefore, electrons from the
valence band can jump to the conduction
band on increasing temperature. Thus they
become more conducting as the
temperature increases.
61. On doping germanium with galium some of
the positions of lattice of germanium are
occupied by galium. Galium atom has only
three valence electrons. Therefore, fourth
valency of nearby germanium atom is not
satisfied. The place remains vacant. This
place is deficient of electrons and is therefore Fig. 1.2 : Semi conductor
called electron hole or electron vacancy.
Electron from neighbouring atom comes and
fills the gap, thereby creating a hole in its original position. Under the
influence of electric field electrons move towards positively charged plates
through these holes and conduct electricity. The holes appear to move
towards negatively charged plates.
62. M2N3
63. See page no. 3 of NCERT textbook for Class XII.

IV. Matching Type

64. (i) → (c) (ii) → (a) (iii) → (d) (iv) → (b)

65. (i) → (b), (c) (ii) → (c), (d) (iii) → (c), (e) (iv) → (a), (d)
66. (i) → (c) (ii) → (a) (iii) → (b)
67. (i) → (d) (ii) → (c) (iii) → (b) (iv) → (a)
68. (i) → (c) (ii) → (a) (iii) → (d) (iv) → (b)

V. Assertion and Reason Type

69. (i) 70. (ii) 71. (iii) 72. (ii) 73. (iii)

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VI. Long Answer Type

74. [Hint : Draw structure and discuss]

75. [Hint :Draw structure and discuss]
76. See page no. 26 of NCERT textbook for Class XII.
77. Let the formula of sample be
2+ 3+
(Fe )x (Fe )yO.
On looking at the given formula of the compound
x + y = 0.93 ... (1)
Total positive charge on ferrous and ferric ions should balance the two
units of negative charge on oxygen. Therefore,
2x + 3y = 2 ... (2)

3
⇒ x+ y= 1 ... (3)
2

On subtracting equation (1) from equation (3) we have

3
y − y = 1 − 0.93
2

1
⇒ y = 0.07
2

⇒ y = 0.14
On putting the value of y in equation (1) we get,
x + 0.14 = 0.93
⇒ x = 0.93 – 0.14
x = 0.79

0.79
2+
Fraction of Fe ions present in the sample = = 0.81
0.93

Metal deficiency defect is present in the sample because iron is less in

amount than that required for stoichiometric composition.

Exemplar Problems, Chemistry 16

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