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Deck 9: Solids

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Question
Which of the following types of solids represents the most ordered arrangement of repeating units?

A) polycrystalline
B) crystalline
C) hydrophobic
D) amorphous
E) none of these
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Question
Diamond is an example of:

A) a molecular solid
B) a network covalent solid
C) an ionic solid
D) a solid solution
E) a metallic solid
Question
SiO2 is a network covalent solid. Which of the following is most likely to be true of SiO2?

A) SiO2 would have a low melting point and would conduct electricity when melted.
B) SiO2 would conduct electricity as a solid and its melting point cannot be predicted.
C) SiO2 would have a high melting point and would conduct electricity when melted.
D) SiO2 would have a high melting point and wouldn't conduct electricity when melted.
E) SiO2 would have a low melting point and wouldn't conduct electricity when melted.
Question
Which of the following types of solids is most likely to be soft, have a low melting point, and not conduct electricity when melted?

A) ionic
B) molecular
C) network covalent
D) metallic
E) none of the above
Question
Which solid is held together by an extended network of covalent bonds?

A) sodium chloride
B) gold
C) calcium carbonate
D) diamond
E) dry ice (solid CO2)
Question
Which force makes the most important contribution to the lattice energy of solid CO2?

A) metallic bonding
B) ionic bonding
C) hydrogen bonding
D) dispersion forces
E) all of the above
Question
Diamond (C(s)) is a network covalent solid. Which of the following is most likely to be true of diamond?

A) Diamond would have a low melting point and would conduct electricity when melted.
B) Diamond would conduct electricity as a solid and its melting point cannot be predicted.
C) Diamond would have a high melting point and would conduct electricity when melted.
D) Diamond would have a high melting point and wouldn't conduct electricity when melted.
E) Diamond would have a low melting point and wouldn't conduct electricity when melted.
Question
A compound that is a poor conductor of electricity when solid, but a very good conductor when molten is most likely to fit into which category?

A) molecular solid
B) covalent solid
C) ionic solid
D) metallic solid
E) any of the above
Question
Arrange the following ionic compounds in order of increasing lattice energy (energy to break the solid into its gaseous ions).

MgF2, SrF2, BeF2

A) MgF2 < SrF2 < BeF2
B) SrF2 < MgF2 < BeF2
C) MgF2 < BeF2 < SrF2
D) SrF2 < BeF2 < MgF2
E) BeF2 < MgF2 < SrF2
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Which of the following compounds will have the most ionic character?</strong> A) AlSb B) AlN C) AlLi D) AlP E) AlAs <div style=padding-top: 35px>

-Which of the following compounds will have the most ionic character?

A) AlSb
B) AlN
C) AlLi
D) AlP
E) AlAs
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Which of the following compounds will have the most covalent character?</strong> A) NaCl B) SrCl<sub>2</sub> C) PCl<sub>3</sub> D) AlCl<sub>3</sub> E) SnCl<sub>4</sub> <div style=padding-top: 35px>

-Which of the following compounds will have the most covalent character?

A) NaCl
B) SrCl2
C) PCl3
D) AlCl3
E) SnCl4
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Which of the following compounds will have the most metallic character?</strong> A) SnBr<sub>4</sub> B) SnO<sub>2</sub> C) SnP D) SnS E) SnCl<sub>4</sub> <div style=padding-top: 35px>

-Which of the following compounds will have the most metallic character?

A) SnBr4
B) SnO2
C) SnP
D) SnS
E) SnCl4
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which compound has a high melting point and is a conductor in the molten and aqueous state.</strong> A) AlSb B) AlN C) AlLi D) AlP E) AlAs <div style=padding-top: 35px>

-Predict which compound has a high melting point and is a conductor in the molten and aqueous state.

A) AlSb
B) AlN
C) AlLi
D) AlP
E) AlAs
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which compound is an electrical insulator and has a relatively low melting point.</strong> A) NaIn B) SrCl<sub>2</sub> C) PCl<sub>3</sub> D) AlCl<sub>3</sub> E) CaH<sub>2</sub> <div style=padding-top: 35px>

-Predict which compound is an electrical insulator and has a relatively low melting point.

A) NaIn
B) SrCl2
C) PCl3
D) AlCl3
E) CaH2
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which solid is the best electrical conductor.</strong> A) SnBr<sub>4</sub> B) SnO<sub>2</sub> C) SnP D) SnS E) SnCl<sub>4</sub> <div style=padding-top: 35px>

-Predict which solid is the best electrical conductor.

A) SnBr4
B) SnO2
C) SnP
D) SnS
E) SnCl4
Question
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which compound is an insulating ceramic material.</strong> A) MgZn<sub>2</sub> B) Li<sub>3</sub>P C) Li<sub>2</sub>O D) LiCl E) GaAs <div style=padding-top: 35px>

-Predict which compound is an insulating ceramic material.

A) MgZn2
B) Li3P
C) Li2O
D) LiCl
E) GaAs
Question
Which of the following structures has a coordination number of six?

A) simple cubic
B) body-centered cubic
C) cubic closest packed
D) hexagonal closest packed
E) none of the above
Question
Which of the following correctly describes a body-centered cubic structure?

A) Coordination Number = 6, 1 atom per unit cell
B) Coordination Number = 6, 2 atoms per unit cell
C) Coordination Number = 6, 4 atoms per unit cell
D) Coordination Number = 8, 1 atom per unit cell
E) Coordination Number = 8, 2 atoms per unit cell
Question
What is the ratio of the length of the body diagonal of a cube to the face diagonal of the cube?

A) 0.817
B) 1.00
C) 1.22
D) 1.41
E) 1.73
Question
What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?

A) r = <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above <div style=padding-top: 35px> a
B) r = ( <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above <div style=padding-top: 35px> a)/4
C) r = ( <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above <div style=padding-top: 35px> a)/2
D)r = ( <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above <div style=padding-top: 35px> a)/4
E) none of the above
Question
Calcium titanate crystallizes in a cubic unit cell with titanium atoms at the corners of the cell, oxygen atoms in the middle of the faces of the cell, and a calcium atom in the center of the cell. What is the formula of calcium titanate?

A) CaTiO
B) CaTiO3
C) CaTiO4
D) Ca2TiO4
E) CaTi8O2
Question
Calculate the number of chloride and ammonium ions per unit cell if NH4Cl is a simple cubic unit cell of NH4+ ions with a Cl- ion in the center of the unit cell.

A) 1 NH4+ ion and 1 Cl- ion
B) 2 NH4+ ions and 2 Cl- ions
C) 4 NH4+ ions and 4 Cl- ions
D) 8 NH4+ ions and 8 Cl- ions
E) none of the above
Question
What is the density in g/cm3 of sodium if this metal crystallizes in a body-centered cubic unit cell with a cell edge of 0.429 nm?

A) 0.484 g/cm3
B) 0.582 g/cm3
C) 0.967 g/cm3
D) 1.94 g/cm3
E) 9.67 x 10-25 g/cm3
Question
What is the approximate density in g/cm3 of titanium metal if the atomic radius of a titanium atom is 0.145 nm and the atoms form a body-centered cubic unit cell?

A) 0.1 g/cm3
B) 1 g/cm3
C) 5 g/cm3
D) 25 g/cm3
E) 30 g/cm3
Question
Tungsten crystallizes in a cubic unit cell with a cell edge of 0.3981 nm. The density of tungsten is 19.35 g/cm3. Calculate the number of atoms per unit cell.

A) 1
B) 2
C) 3
D) 4
E) 8
Question
Iron crystallizes in a cubic unit cell with a cell edge of 0.2866 nm. The density of iron is 7.875 g/cm3. Calculate the number of atoms per unit cell.

A) 1
B) 2
C) 3
D) 4
E) 8
Question
Calculate the metallic radius in nanometers of the Ag atom if silver crystallizes in a face-centered cubic unit cell with a cell edge of 0.4086 nm.
Question
Cesium iodide consists of a simple cubic lattice of l- ions with Cs+ ions in the center of the cubes. If the cell edge length is 0.445 nm, what is the Cs-I interatomic distance in nanometers?

A) 0.193 nm
B) 0.314 nm
C) 0.385 nm
D) 0.629 nm
E) 0.770 nm
Question
In KF, the K+ and F- ions are almost exactly the same size: 0.134 nm. Which would be larger: a neutral potassium atom or a neutral fluorine atom?
Question
Which of the following would be the correct order from lowest melting point to highest for the following substances?

A) NaF < C3H8 < CH3CH2OH
B) C3H8 < NaF < CH3CH2OH
C) C3H8 < CH3CH2OH < NaF
D) CH3CH2OH < C3H8 < NaF
E) none of these
Question
When diamond, NaCl, and water are boiled, the bonds being broken can best be described respectively as:

A) covalent, ionic, covalent
B) ionic, covalent, hydrogen bonds
C) covalent, ionic, hydrogen bonds
D) hydrogen bonds, ionic, covalent
E) none of the above
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Deck 9: Solids
1
Which of the following types of solids represents the most ordered arrangement of repeating units?

A) polycrystalline
B) crystalline
C) hydrophobic
D) amorphous
E) none of these
crystalline
2
Diamond is an example of:

A) a molecular solid
B) a network covalent solid
C) an ionic solid
D) a solid solution
E) a metallic solid
a network covalent solid
3
SiO2 is a network covalent solid. Which of the following is most likely to be true of SiO2?

A) SiO2 would have a low melting point and would conduct electricity when melted.
B) SiO2 would conduct electricity as a solid and its melting point cannot be predicted.
C) SiO2 would have a high melting point and would conduct electricity when melted.
D) SiO2 would have a high melting point and wouldn't conduct electricity when melted.
E) SiO2 would have a low melting point and wouldn't conduct electricity when melted.
SiO2 would have a high melting point and wouldn't conduct electricity when melted.
4
Which of the following types of solids is most likely to be soft, have a low melting point, and not conduct electricity when melted?

A) ionic
B) molecular
C) network covalent
D) metallic
E) none of the above
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5
Which solid is held together by an extended network of covalent bonds?

A) sodium chloride
B) gold
C) calcium carbonate
D) diamond
E) dry ice (solid CO2)
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6
Which force makes the most important contribution to the lattice energy of solid CO2?

A) metallic bonding
B) ionic bonding
C) hydrogen bonding
D) dispersion forces
E) all of the above
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7
Diamond (C(s)) is a network covalent solid. Which of the following is most likely to be true of diamond?

A) Diamond would have a low melting point and would conduct electricity when melted.
B) Diamond would conduct electricity as a solid and its melting point cannot be predicted.
C) Diamond would have a high melting point and would conduct electricity when melted.
D) Diamond would have a high melting point and wouldn't conduct electricity when melted.
E) Diamond would have a low melting point and wouldn't conduct electricity when melted.
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8
A compound that is a poor conductor of electricity when solid, but a very good conductor when molten is most likely to fit into which category?

A) molecular solid
B) covalent solid
C) ionic solid
D) metallic solid
E) any of the above
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9
Arrange the following ionic compounds in order of increasing lattice energy (energy to break the solid into its gaseous ions).

MgF2, SrF2, BeF2

A) MgF2 < SrF2 < BeF2
B) SrF2 < MgF2 < BeF2
C) MgF2 < BeF2 < SrF2
D) SrF2 < BeF2 < MgF2
E) BeF2 < MgF2 < SrF2
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10
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Which of the following compounds will have the most ionic character?</strong> A) AlSb B) AlN C) AlLi D) AlP E) AlAs

-Which of the following compounds will have the most ionic character?

A) AlSb
B) AlN
C) AlLi
D) AlP
E) AlAs
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11
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Which of the following compounds will have the most covalent character?</strong> A) NaCl B) SrCl<sub>2</sub> C) PCl<sub>3</sub> D) AlCl<sub>3</sub> E) SnCl<sub>4</sub>

-Which of the following compounds will have the most covalent character?

A) NaCl
B) SrCl2
C) PCl3
D) AlCl3
E) SnCl4
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12
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Which of the following compounds will have the most metallic character?</strong> A) SnBr<sub>4</sub> B) SnO<sub>2</sub> C) SnP D) SnS E) SnCl<sub>4</sub>

-Which of the following compounds will have the most metallic character?

A) SnBr4
B) SnO2
C) SnP
D) SnS
E) SnCl4
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13
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which compound has a high melting point and is a conductor in the molten and aqueous state.</strong> A) AlSb B) AlN C) AlLi D) AlP E) AlAs

-Predict which compound has a high melting point and is a conductor in the molten and aqueous state.

A) AlSb
B) AlN
C) AlLi
D) AlP
E) AlAs
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14
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which compound is an electrical insulator and has a relatively low melting point.</strong> A) NaIn B) SrCl<sub>2</sub> C) PCl<sub>3</sub> D) AlCl<sub>3</sub> E) CaH<sub>2</sub>

-Predict which compound is an electrical insulator and has a relatively low melting point.

A) NaIn
B) SrCl2
C) PCl3
D) AlCl3
E) CaH2
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15
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which solid is the best electrical conductor.</strong> A) SnBr<sub>4</sub> B) SnO<sub>2</sub> C) SnP D) SnS E) SnCl<sub>4</sub>

-Predict which solid is the best electrical conductor.

A) SnBr4
B) SnO2
C) SnP
D) SnS
E) SnCl4
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16
Use the bond-type triangle for
<strong>Use the bond-type triangle for -Predict which compound is an insulating ceramic material.</strong> A) MgZn<sub>2</sub> B) Li<sub>3</sub>P C) Li<sub>2</sub>O D) LiCl E) GaAs

-Predict which compound is an insulating ceramic material.

A) MgZn2
B) Li3P
C) Li2O
D) LiCl
E) GaAs
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17
Which of the following structures has a coordination number of six?

A) simple cubic
B) body-centered cubic
C) cubic closest packed
D) hexagonal closest packed
E) none of the above
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18
Which of the following correctly describes a body-centered cubic structure?

A) Coordination Number = 6, 1 atom per unit cell
B) Coordination Number = 6, 2 atoms per unit cell
C) Coordination Number = 6, 4 atoms per unit cell
D) Coordination Number = 8, 1 atom per unit cell
E) Coordination Number = 8, 2 atoms per unit cell
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19
What is the ratio of the length of the body diagonal of a cube to the face diagonal of the cube?

A) 0.817
B) 1.00
C) 1.22
D) 1.41
E) 1.73
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
Unlock Deck
k this deck
20
What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?

A) r = <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above a
B) r = ( <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above a)/4
C) r = ( <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above a)/2
D)r = ( <strong>What is the relationship between the unit cell edge length (a) and the radius of a metal atom (r) when the metal crystallizes in a face-centered cubic unit cell?</strong> A) r = a B) r = ( a)/4 C) r = ( a)/2 D)r = ( a)/4 E) none of the above a)/4
E) none of the above
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21
Calcium titanate crystallizes in a cubic unit cell with titanium atoms at the corners of the cell, oxygen atoms in the middle of the faces of the cell, and a calcium atom in the center of the cell. What is the formula of calcium titanate?

A) CaTiO
B) CaTiO3
C) CaTiO4
D) Ca2TiO4
E) CaTi8O2
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Unlock Deck
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22
Calculate the number of chloride and ammonium ions per unit cell if NH4Cl is a simple cubic unit cell of NH4+ ions with a Cl- ion in the center of the unit cell.

A) 1 NH4+ ion and 1 Cl- ion
B) 2 NH4+ ions and 2 Cl- ions
C) 4 NH4+ ions and 4 Cl- ions
D) 8 NH4+ ions and 8 Cl- ions
E) none of the above
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23
What is the density in g/cm3 of sodium if this metal crystallizes in a body-centered cubic unit cell with a cell edge of 0.429 nm?

A) 0.484 g/cm3
B) 0.582 g/cm3
C) 0.967 g/cm3
D) 1.94 g/cm3
E) 9.67 x 10-25 g/cm3
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
Unlock Deck
k this deck
24
What is the approximate density in g/cm3 of titanium metal if the atomic radius of a titanium atom is 0.145 nm and the atoms form a body-centered cubic unit cell?

A) 0.1 g/cm3
B) 1 g/cm3
C) 5 g/cm3
D) 25 g/cm3
E) 30 g/cm3
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
Unlock Deck
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25
Tungsten crystallizes in a cubic unit cell with a cell edge of 0.3981 nm. The density of tungsten is 19.35 g/cm3. Calculate the number of atoms per unit cell.

A) 1
B) 2
C) 3
D) 4
E) 8
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26
Iron crystallizes in a cubic unit cell with a cell edge of 0.2866 nm. The density of iron is 7.875 g/cm3. Calculate the number of atoms per unit cell.

A) 1
B) 2
C) 3
D) 4
E) 8
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27
Calculate the metallic radius in nanometers of the Ag atom if silver crystallizes in a face-centered cubic unit cell with a cell edge of 0.4086 nm.
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
Unlock Deck
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28
Cesium iodide consists of a simple cubic lattice of l- ions with Cs+ ions in the center of the cubes. If the cell edge length is 0.445 nm, what is the Cs-I interatomic distance in nanometers?

A) 0.193 nm
B) 0.314 nm
C) 0.385 nm
D) 0.629 nm
E) 0.770 nm
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
Unlock Deck
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29
In KF, the K+ and F- ions are almost exactly the same size: 0.134 nm. Which would be larger: a neutral potassium atom or a neutral fluorine atom?
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
Unlock Deck
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30
Which of the following would be the correct order from lowest melting point to highest for the following substances?

A) NaF < C3H8 < CH3CH2OH
B) C3H8 < NaF < CH3CH2OH
C) C3H8 < CH3CH2OH < NaF
D) CH3CH2OH < C3H8 < NaF
E) none of these
Unlock Deck
Unlock for access to all 31 flashcards in this deck.
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31
When diamond, NaCl, and water are boiled, the bonds being broken can best be described respectively as:

A) covalent, ionic, covalent
B) ionic, covalent, hydrogen bonds
C) covalent, ionic, hydrogen bonds
D) hydrogen bonds, ionic, covalent
E) none of the above
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Unlock Deck
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