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Deck 10: Chemistry of Explosions
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Deck 10: Chemistry of Explosions
1
Calculate the volume of 3.97 mol of methane gas at STP.
A) 0.177 L
B) 5.56 L
C) 5.64 L
D) 88.9 L
A) 0.177 L
B) 5.56 L
C) 5.64 L
D) 88.9 L
88.9 L
2
Calculate the missing variable in the following experiment using Gay-Lussac's law. P1 = 1.57 atm, T1 = 287 K, P2 = ?, T2 = 305 K
A) 0.0000180 atm
B) 1.67 atm
C) 2.20 atm
D) 137000 atm
A) 0.0000180 atm
B) 1.67 atm
C) 2.20 atm
D) 137000 atm
1.67 atm
3
Determine how many moles of oxygen would be necessary for the complete oxidation of two moles of C4H10 to CO2 and H2O.
A) 3
B) 9
C) 13
D) 17
A) 3
B) 9
C) 13
D) 17
13
4
What happens to the volume of a gas when the amount of the gas doubles and all other variables are constant?
A) The volume increases.
B) The volume decreases.
C) The volume stays the same.
A) The volume increases.
B) The volume decreases.
C) The volume stays the same.
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5
Calculate the missing variable in the following experiment using Charles's law. V1 = 6.35 L, T1 = 342 K, V2 = ?, T2 = 278 K
A) 0.0000668 L
B) 5.16 L
C) 7.81 L
D) 604000 L
A) 0.0000668 L
B) 5.16 L
C) 7.81 L
D) 604000 L
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6
Calculate the missing variable in the following experiment using Avogadro's law: V1 = 1.50 L, n1 = 3.95 mol, V2 = ? L, n2 = 0.891 mol
A) 0.338 mol
B) 0.426 mol
C) 2.96 mol
D) 6.64 mol
A) 0.338 mol
B) 0.426 mol
C) 2.96 mol
D) 6.64 mol
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7
Calculate the missing variable in the following experiment using Gay-Lussac's law. P1 = 3.88 atm, T1 = 278 K, P2 = 2.98 atm, T2 = ?
A) 0.0416 K
B) 213 K
C) 362 K
D) 3210 K
A) 0.0416 K
B) 213 K
C) 362 K
D) 3210 K
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8
Determine whether TNT (C7H5N3O6) has a negative, neutral, or positive oxygen balance.
A) negative
B) neutral
C) positive
A) negative
B) neutral
C) positive
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9
Calculate the volume of 49.2 g of carbon dioxide at STP.
A) 1.12 L
B) 20.0 L
C) 25.0 L
D) 1100 L
A) 1.12 L
B) 20.0 L
C) 25.0 L
D) 1100 L
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10
A gas initially occupies 4.50 L at 23°C and 1.50 atm. Calculate its volume after the temperature is increased to 160°C and the pressure is decreased to 0.50 atm.
A) 0.0000263 L
B) 0.0506 L
C) 9.23 L
D) 19.7 L
A) 0.0000263 L
B) 0.0506 L
C) 9.23 L
D) 19.7 L
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11
Calculate the missing variable in the following experiment using Boyle's law: V1 = 0.890 L, P1 = 2.19 atm, V2 = ?, P2 = 0.376 atm
A) 0.193 L
B) 0.733 L
C) 1.08 L
D) 5.18 L
A) 0.193 L
B) 0.733 L
C) 1.08 L
D) 5.18 L
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12
Calculate the missing variable in the following experiment using Charles's law. V1 = 10.25 L, T1 = 300 K, V2 = 4.98 L, T2 = ?
A) 0.00162 K
B) 0.170 K
C) 146 K
D) 617 K
A) 0.00162 K
B) 0.170 K
C) 146 K
D) 617 K
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13
What happens to the pressure of a gas when the temperature of the gas decreases and all other variables are constant?
A) The pressure increases.
B) The pressure decreases.
C) The pressure stays the same.
Enter the appropriate word(s) to complete the statement.
A) The pressure increases.
B) The pressure decreases.
C) The pressure stays the same.
Enter the appropriate word(s) to complete the statement.
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14
What is the pressure of a 15.0-L compressed gas tank that holds 17.8 mol of carbon dioxide gas at 375 K?
A) 0.0274 atm
B) 0.0584 atm
C) 36.5 atm
D) 3850 atm
A) 0.0274 atm
B) 0.0584 atm
C) 36.5 atm
D) 3850 atm
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15
Which of the following statements is not a part of the kinetic molecular theory of gases?
A) Gas particles are extremely small and have relatively large distances between them.
B) The average kinetic energy of gas particles is proportional to the pressure of the gas.
C) Gas particles are in continuous random, straight-line motion as they collide with one another and with the container walls.
D) Gas particles act independently of one another because there are no significant attractive or repulsive forces between gas particles.
A) Gas particles are extremely small and have relatively large distances between them.
B) The average kinetic energy of gas particles is proportional to the pressure of the gas.
C) Gas particles are in continuous random, straight-line motion as they collide with one another and with the container walls.
D) Gas particles act independently of one another because there are no significant attractive or repulsive forces between gas particles.
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16
Which statement gives a difference between a low explosive and a high explosive compound?
A) Only a high explosive compound contains nitrogen.
B) A high explosive compound will explode without being confined.
C) A low explosive is less dangerous than a high explosive compound.
D) A high explosive compound must be ignited at a higher temperature than a low explosive.
A) Only a high explosive compound contains nitrogen.
B) A high explosive compound will explode without being confined.
C) A low explosive is less dangerous than a high explosive compound.
D) A high explosive compound must be ignited at a higher temperature than a low explosive.
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17
A mixture of oxygen, hydrogen and nitrogen gases exerts a total pressure of 2.74 atm. If the partial pressures of the oxygen and the hydrogen are 1.11 atm and 0.997 atm respectively, what would be the partial pressure exerted by the nitrogen?
A) 0.633 atm
B) 2.63 atm
C) 2.85 atm
D) 4.85 atm
A) 0.633 atm
B) 2.63 atm
C) 2.85 atm
D) 4.85 atm
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18
A gas-tight syringe is filled to 20.0 mL, at a pressure of 1.15 atm and 24.0°C, with one of the noble gases. If the mass of the empty syringe is 58.902 g and the mass of the filled syringe is 59.026 g, identify the noble gas contained in the syringe.
A) Ar
B) Kr
C) Xe
D) Rn
A) Ar
B) Kr
C) Xe
D) Rn
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19
Calculate the missing variable in the following experiment using Boyle's law: V1 = 2.50 L, P1 = 0.590 atm, V2 = 3.40 L, P2 = ?
A) 0.434 L
B) 1.25 L
C) 2.31 L
D) 5.02 L
A) 0.434 L
B) 1.25 L
C) 2.31 L
D) 5.02 L
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20
Calculate the missing variable in the following experiment using Avogadro's law: V1 = 4.20 L, n1 = 0.753 mol, V2 = 2.93 L, n2 = ?
A) 0.525 mol
B) 1.90 mol
C) 9.27 mol
D) 16.3 mol
A) 0.525 mol
B) 1.90 mol
C) 9.27 mol
D) 16.3 mol
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21
Calculate the density of 1 mol of hexane at STP.
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22
Calculate the total pressure of an 8.00-L container at 23°C that contains 75 g of xenon and 55 g of nitrogen gas.
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