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Deck 22: Inorganic Materials
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Exhibit 22-2
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy.
Refer to Exhibit 22-2. Based solely on the equation above, which set of conditions will result in the most electrons being excited to the conduction band.
A) Low temperature, low band gap energy
B) Low temperature, high band gap energy
C) High temperature, low band gap energy
D) High temperature, high band gap energy
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy.
Refer to Exhibit 22-2. Based solely on the equation above, which set of conditions will result in the most electrons being excited to the conduction band.A) Low temperature, low band gap energy
B) Low temperature, high band gap energy
C) High temperature, low band gap energy
D) High temperature, high band gap energy
Question
Exhibit 22-2
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy.
Refer to Exhibit 22-2. The band gap of pure crystalline silicon is 1.94×10-19 J at 300 K. How many electrons are excited from the valence band to the conduction band at this temperature in a 1.00 cm3 silicon crystal?
A) 1.70×109
B) 4.80×1015
C) 0.555 NA
D) 1.46×107
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy.
Refer to Exhibit 22-2. The band gap of pure crystalline silicon is 1.94×10-19 J at 300 K. How many electrons are excited from the valence band to the conduction band at this temperature in a 1.00 cm3 silicon crystal?A) 1.70×109
B) 4.80×1015
C) 0.555 NA
D) 1.46×107
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Deck 22: Inorganic Materials
1
The primary building blocks in silicates are
A) C-O bonds
B) Si-C bonds
C) Si-O bonds
D) Si-Si bonds
E) None of the above
A) C-O bonds
B) Si-C bonds
C) Si-O bonds
D) Si-Si bonds
E) None of the above
C
2
Feldspars are a type of
A) aluminosilicate
B) clay
C) silicate
D) zeolite
E) none of the above
A) aluminosilicate
B) clay
C) silicate
D) zeolite
E) none of the above
A
3
Asbestos is a type of
A) aluminosilicate
B) clay
C) silicate
D) zeolite
E) none of the above
A) aluminosilicate
B) clay
C) silicate
D) zeolite
E) none of the above
C
4
Of the following, which is most likely to be used as a catalyst?
A) aluminosilicate
B) clays
C) silicates
D) zeolites
E) none of the above
A) aluminosilicate
B) clays
C) silicates
D) zeolites
E) none of the above
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5
Which of the following is the result of firing a ceramic?
A) densification
B) sintering
C) doping
D) a and b
E) b and c
A) densification
B) sintering
C) doping
D) a and b
E) b and c
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6
Slowly heating an object under strain so that it cools slowly is called
A) densification
B) sintering
C) doping
D) annealing
E) a and b
A) densification
B) sintering
C) doping
D) annealing
E) a and b
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7
Which of the following has the highest conductivity?
A) silver
B) gold
C) platinum
A) silver
B) gold
C) platinum
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8
Hydraulic cement hardens by
A) forcing water out of the structure with great pressure.
B) Incorporating water into the structure
C) Forming hydroxides
D) b and c
E) none of the above
A) forcing water out of the structure with great pressure.
B) Incorporating water into the structure
C) Forming hydroxides
D) b and c
E) none of the above
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9
A refractory is
A) a ceramic material that withstands temperatures of up to 1500°C without melting.
B) a conducting material that dissipates small amounts of heat.
C) a device used to separate various types of silicates.
D) a device for converting AC current to DC current.
E) none of the above
A) a ceramic material that withstands temperatures of up to 1500°C without melting.
B) a conducting material that dissipates small amounts of heat.
C) a device used to separate various types of silicates.
D) a device for converting AC current to DC current.
E) none of the above
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10
Conductivity, Lm, has units of
A) V·A-1
B) W·m
C) W-1·m-1
D) A·m-2
A) V·A-1
B) W·m
C) W-1·m-1
D) A·m-2
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11
Mobility, m, has units of
A) A·m2
B) m2·V-1·s-1
C) m2·V-2·s-1
D) V·m-2·s-1
A) A·m2
B) m2·V-1·s-1
C) m2·V-2·s-1
D) V·m-2·s-1
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12
Which lies energetically lower?
A) conduction band
B) valence band
A) conduction band
B) valence band
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13
The conductivity of semiconductors can be increased by
A) increasing the temperature.
B) decreasing the temperature.
C) using electromagnetic radiation for move electrons from the conduction band to the valence band.
D) a and c
E) b and c
A) increasing the temperature.
B) decreasing the temperature.
C) using electromagnetic radiation for move electrons from the conduction band to the valence band.
D) a and c
E) b and c
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14
When silicon is doped with a group V element
A) electrons move slower across the band gap.
B) more electrons than those needed for bonding are added to the crystal.
C) the donor impurity decreases the conductivity.
D) all of the above
E) none of the above
A) electrons move slower across the band gap.
B) more electrons than those needed for bonding are added to the crystal.
C) the donor impurity decreases the conductivity.
D) all of the above
E) none of the above
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15
When either n- or p-type doping is used with silicon, conductivity decreases compared to that of pure silicon at the same temperature.
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16
Perovskites typically have ________ different metals for every 3 oxygen atoms.
A) 1
B) 2
C) 3
D) 4
A) 1
B) 2
C) 3
D) 4
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17
Perovskites can become superconductors at
A) high temperatures
B) low temperatures
C) room temperature
D) a and b
E) none of the above
A) high temperatures
B) low temperatures
C) room temperature
D) a and b
E) none of the above
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18
Exhibit 22-1
The following question(s) pertain to GaAs, which has a band gap of 140 kJ·mol.
Refer to Exhibit 22-1. What temperature is required to thermally excite electrons from the valence band to the conduction band?
A) 14000 K
B) 15890 K
C) 16840 K
D) 22180 K
The following question(s) pertain to GaAs, which has a band gap of 140 kJ·mol.
Refer to Exhibit 22-1. What temperature is required to thermally excite electrons from the valence band to the conduction band?
A) 14000 K
B) 15890 K
C) 16840 K
D) 22180 K
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19
Exhibit 22-1
The following question(s) pertain to GaAs, which has a band gap of 140 kJ·mol.
Refer to Exhibit 22-1. What is the longest wavelength of radiation is required to cause this transition?
A) 932 nm
B) 854 nm
C) 727 nm
D) 595 nm
The following question(s) pertain to GaAs, which has a band gap of 140 kJ·mol.
Refer to Exhibit 22-1. What is the longest wavelength of radiation is required to cause this transition?
A) 932 nm
B) 854 nm
C) 727 nm
D) 595 nm
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20
A sample of CdS has to be heated to 30411 K to thermally excite electrons from the valence band to the conduction band. What is the value of Eg based on these experiments?
A) 3.2×10-19 J
B) 6.3×10-19 J
C) 4.2×10-19 J
D) 8.7×10-19 J
A) 3.2×10-19 J
B) 6.3×10-19 J
C) 4.2×10-19 J
D) 8.7×10-19 J
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21
A sample of CdS is doped with Tellurium. This will
A) form an n-type semiconductor.
B) form a p-type semiconductor.
C) create a "hole" in the valence band.
D) a and c
E) b and c
A) form an n-type semiconductor.
B) form a p-type semiconductor.
C) create a "hole" in the valence band.
D) a and c
E) b and c
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22
Which of the following will have the greatest mobility?
A) Li+
B) Mg2+
C) Ca2+
D) Ba2+
A) Li+
B) Mg2+
C) Ca2+
D) Ba2+
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23
Compared to a semiconductor, the band gap in an insulator is
A) larger
B) approximately the same
C) smaller, but still present
D) negligible
A) larger
B) approximately the same
C) smaller, but still present
D) negligible
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24
Exhibit 22-2
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy. Refer to Exhibit 22-2. Based solely on the equation above, which set of conditions will result in the most electrons being excited to the conduction band.
A) Low temperature, low band gap energy
B) Low temperature, high band gap energy
C) High temperature, low band gap energy
D) High temperature, high band gap energy
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy.
Refer to Exhibit 22-2. Based solely on the equation above, which set of conditions will result in the most electrons being excited to the conduction band.A) Low temperature, low band gap energy
B) Low temperature, high band gap energy
C) High temperature, low band gap energy
D) High temperature, high band gap energy
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25
Exhibit 22-2
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy. Refer to Exhibit 22-2. The band gap of pure crystalline silicon is 1.94×10-19 J at 300 K. How many electrons are excited from the valence band to the conduction band at this temperature in a 1.00 cm3 silicon crystal?
A) 1.70×109
B) 4.80×1015
C) 0.555 NA
D) 1.46×107
The following question(s) pertain to the following equation which estimates the number of electrons per cubic centimeter excited to the conduction band as a function of temperature and the band gap energy.
Refer to Exhibit 22-2. The band gap of pure crystalline silicon is 1.94×10-19 J at 300 K. How many electrons are excited from the valence band to the conduction band at this temperature in a 1.00 cm3 silicon crystal?A) 1.70×109
B) 4.80×1015
C) 0.555 NA
D) 1.46×107
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26
Silicon, a semiconductor, has four valence electrons. Titanium, a conductor, also has four valence electrons. Despite both having four electrons, the elements differ in their conductivity because
A) Ti atoms are smaller than Si atoms
B) The band gap energies fall sharply in from the third period to the fourth period on the periodic table
C) Ti has low-lying d orbitals that form a conduction band, Si does not
D) Ti has a larger ionization energy that Si
E) None of the above.
A) Ti atoms are smaller than Si atoms
B) The band gap energies fall sharply in from the third period to the fourth period on the periodic table
C) Ti has low-lying d orbitals that form a conduction band, Si does not
D) Ti has a larger ionization energy that Si
E) None of the above.
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27
The silicon to oxygen bonds in silicates are
A) Purely ionic
B) Purely covalent
C) Mainly covalent with partial ionic character
D) Mainly ionic with partial covalent character
E) metallic
A) Purely ionic
B) Purely covalent
C) Mainly covalent with partial ionic character
D) Mainly ionic with partial covalent character
E) metallic
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28
Portland cement hardens through a series of complex reactions. It normally sets in a matter of ______ but may take as long as a ______ to attain its final strength.
A) minute, day
B) hours, month
C) hours, week
D) hours, year
E) week, month
A) minute, day
B) hours, month
C) hours, week
D) hours, year
E) week, month
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29
The high conductivity of metals is ascribed to
A) empty conduction bands
B) filled conduction bands
C) empty valence orbitals
D) filled valence orbitals
E) partially filled conduction band
A) empty conduction bands
B) filled conduction bands
C) empty valence orbitals
D) filled valence orbitals
E) partially filled conduction band
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30
Doping silicon with indium increases its conductivity by creating
A) an n-type semiconductor
B) holes in the conduction band
C) holes in the valence band
D) None of these
A) an n-type semiconductor
B) holes in the conduction band
C) holes in the valence band
D) None of these
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31
Glasses can be described as
A) anisotropic
B) isotropic
C) doped
D) B and C
E) none of the above
A) anisotropic
B) isotropic
C) doped
D) B and C
E) none of the above
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32
The higher silicate structures are formed from the orthosilicate ion that has a _________ geometry.
A) square planar
B) trigonal bipyramid
C) octahedral
D) triangular
E) none of the above
A) square planar
B) trigonal bipyramid
C) octahedral
D) triangular
E) none of the above
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33
In quartz crystals, what is the formal charge on the Si atom?
A) 0
B) 8
C) -2
D) 4
E) none of the above
A) 0
B) 8
C) -2
D) 4
E) none of the above
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