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Deck 15: Gases and Kinetic Theory

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Question
Why do vapor bubbles get larger in boiling water as they approach the surface?

A) They only appear to get larger, this being a magnification effect due to looking through the water.
B) The bubbles' pressure increases as they rise.
C) The pressure in the water decreases as the bubble moves toward the surface.
D) Bubbles always get bigger after they form.
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Question
What thermodynamic quantity is held constant in Boyle's law?

A) pressure
B) volume
C) temperature
D) Both pressure and volume are each held constant.
Question
Avogadro's number is related to the universal gas constant R and the number of moles n by:

A) NA = Rn
B) NA = R/n
C) NA = n/R
D) Avogadro's number cannot be related to these two quantities alone.
Question
A 4.00-L container holds half a mole of an ideal gas at a pressure of 18.5 atm. What is the gas temperature? (R = 0.0821 L · atm/mol · K)

A) 1800 K
B) 1190 K
C) 901 K
D) 450 K
Question
An ideal gas is confined to a container with adjustable volume. The number of moles and temperature are constant. By what factor will the volume change if pressure quadruples?

A) 16
B) 4
C) 1/4
D) 1/16
Question
With molar quantity and temperature held constant, by what factor does the pressure of an ideal gas change when the volume is four times bigger?

A) 16
B) 4
C) 1/4
D) 1/16
Question
For a quantity of ideal gas, which of the following is constant?

A) PTV
B) P/TV
C) PT/V
D) PV/T
Question
In the relationship Δ\Delta P <strong>In the relationship \Delta P \Delta T , what scale is used for temperature?</strong> A) Fahrenheit B) Celsius C) Kelvin D) Both Celsius and Kelvin may be used since the degree size is the same for both. <div style=padding-top: 35px> Δ\Delta T , what scale is used for temperature?

A) Fahrenheit
B) Celsius
C) Kelvin
D) Both Celsius and Kelvin may be used since the degree size is the same for both.
Question
The gas, <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg <div style=padding-top: 35px> , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?

A) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg <div style=padding-top: 35px> g
B) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg <div style=padding-top: 35px> kg
C) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg <div style=padding-top: 35px> kg
D) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg <div style=padding-top: 35px> kg
Question
An ideal gas is confined to a container with constant volume. The number of moles is constant. By what factor will the pressure change if the absolute temperature triples?

A) 2/3
B) 1/3
C) 3
D) 9
Question
With volume and molar quantity held constant, by what factor does the absolute temperature change for an ideal gas when the pressure is three times bigger?

A) 0.3
B) 3.0
C) 5.0
D) 25.0
Question
The pressure in a constant-volume gas thermometer extrapolates to zero at what temperature?

A) 0 °\degree C
B) 0 K
C) 0 °\degree F
D) 0 Pa
Question
Four moles of nitrogen gas are contained in an enclosed cylinder with a movable piston. If the gas temperature is 298 K, and the pressure is 1.01 *106 N/m2, what is the volume? (R = 8.31 J/mol·K)

A) 9.81 *10-3 m3
B) 4.90 *10-3 m3
C) 17.3 *10-3 m3
D) 8.31 *10-3 m3
Question
An ideal gas is confined to a container with adjustable volume. The pressure and mole number are constant. By what factor will volume change if absolute temperature doubles?

A) 4.0
B) 2.0
C) 1/2
D) 1/4
Question
The value 1.38 *10-23 J/K is known as:

A) the universal gas constant.
B) Boltzmann's constant.
C) Avogadro's number.
D) the molar specific.
Question
Which law is for a quantity of gas held at constant volume?

A) Boyle's law
B) Charles's law
C) Gay-Lussac's law
D) Avogadro's law
Question
Four moles of nitrogen gas are contained in an enclosed cylinder with a movable piston. If the molecular mass of nitrogen is 28 u, how many grams of nitrogen are present?

A) 0.14
B) 56
C) 42
D) 112
Question
What is the mass of 2 moles of carbon dioxide?

A) 88 g
B) 80 g
C) 64 g
D) 56 g
Question
How many molecules are there in 14 grams of nitrogen gas?

A) NA/2
B) NA
C) 2 NA
D) The answer is not given.
Question
What is the mass of a mole of oxygen gas?

A) 8 g
B) 16 g
C) 24 g
D) 32 g
Question
Suppose there are 2 moles of a gas in a container of fixed size and the average spacing of molecules in the container is 4.0 nm. If an additional 14 moles of the gas are added to the container and thermal equilibrium is established, what is the new average spacing of the molecules?

A) 2.0 nm
B) 0.50 nm
C) 1.4 nm
D) 2.8 nm
Question
One way to heat a gas is to compress it. A gas at 1.00 atm at 25.0 °\degree C is compressed to one tenth of its original volume, and it reaches 30.0 atm pressure. What is its new temperature?

A) 1500 K
B) 621 °\degree C
C) 1192 °\degree C
D) 919 °\degree C
Question
The volume holding 0.63 mole of an ideal gas is compressed to 1/4 of its original volume by a piston. At the same time the pressure of the gas triples. If the original absolute temperature of the gas was T, that is the new temperature after compression?

A) 4/3T
B) 3/4T
C) 0.63(3/4T)
D) 0.63(4/3T)
Question
The sulfur hexafluoride molecule consists of one sulfur atom and six fluorine atoms. The atomic masses of sulfur and fluorine are 32.0 u and 19.0 u, respectively. One-half mole of this very heavy gas has what mass?

A) 32 g
B) 73 g
C) 146 g
D) 608 g
Question
A spherical air bubble originating from a scuba diver at a depth of 30.0 m has a diameter of 1.0 cm. What will the bubble's diameter be when it reaches the surface? (Assume constant temperature.)

A) 0.7 cm
B) 1.0 cm
C) 1.4 cm
D) 1.6 cm
Question
Boltzmann's constant, kB, may be derived as a function of R, the universal gas constant, and NA, Avogadro's number. Which expresses the value of kB?

A) NAR2
B) NAR
C) R/NA
D) NA/R
Question
Tricia puts 66 g of dry ice (solid CO2) into a 2.0-L container and seals the top. The dry ice turns to gas at room temperature (20 °\degree C). Find the pressure increase in the 2.0-L container. (One mole of CO2 has a mass of 44 g and R = 0.0821 L·atm/mol·K. Ignore the initial volume of the dry ice.)

A) 6.0 atm
B) 12 atm
C) 18 atm
D) 2.0 atm
Question
A helium-filled weather balloon has a 0.90-m radius at liftoff where air pressure is 1.0 atm and the temperature is 298 K. When airborne, the temperature is 210 K, and its radius expands to 3.5 m. What is the pressure at the airborne location?

A) 0.50 atm
B) 0.012 atm
C) 0.019 atm
D) 0.38 atm
Question
Estimate the volume of a helium-filled balloon if it is to lift a payload of 1000 kg. The density of air is 1.29 kg/m3 and helium has a density of 0.178 kg/m3.

A) 4410 m3
B) 900 m3
C) 450 m3
D) 225 m3
Question
The mass of a hot-air balloon and its cargo (not including the air inside) is 250 kg. The air outside is at a temperature of 10 °\degree C and a pressure of 1 atm = 105 N/m2. The volume of the balloon is 400 m3. Which temperature below of the air in the balloon will allow the balloon to just lift off? (Air density at 10 °\degree C is 1.25 kg/m3.)

A) 37 °\degree C
B) 293 °\degree C
C) 99 °\degree C
D) 200 °\degree C
Question
If the temperature of a volume of ideal gas increases for 100°C to 200°C, what happens to the average kinetic energy of the molecules?

A) It halves.
B) It doubles.
C) It increases but less that double.
D) It increases more than double.
Question
The ideal gas law treats gas as consisting of:

A) atoms.
B) molecules.
C) chemicals.
D) bubbles.
Question
Two moles of an ideal gas at 3.0 atm and 10 °\degree C are heated up to 100 °\degree C. If the volume is held constant during this heating, what is the final pressure?

A) 4.5 atm
B) 4.0 atm
C) 0.14 atm
D) 1.0 atm
Question
One mole of an ideal gas at 1.00 atm and 0.00 °\degree C occupies 22.4 L. How many molecules of an ideal gas are in one cm3 under these conditions?

A) 28.9
B) 22,400
C) 2.69 *1019
D) 6.02 * 1023
Question
A pressure of 2.0 *10 - 7 mm of Hg is achieved in a vacuum system. How many gas molecules are present per liter volume if the temperature is 293 K? (760 mm of Hg = 1 atm, R = 0.0821 L · atm/mol · K, and NA = 6.02 *1023)

A) 16 * 1018
B) 6.6 * 1012
C) 3.3 *1012
D) 3.4 *109
Question
How many moles of air must escape from a 10 m * 8.0 m *5.0 m room when the temperature is raised from 0 °\degree C to 10 °\degree C? Assume the pressure remains unchanged at one atmosphere while the room is heated.

A) 1.3 *103 moles
B) 1.2 * 103 moles
C) 6.5 *102 moles
D) 3.7 * 102 moles
Question
How many atoms are present in a sample of pure iron with a mass of 210 g? (The atomic mass of iron = 56 u and NA = 6.02* 1023.)

A) 1.8 *1019
B) 2.3 *1028
C) 2.3 *1024
D) 3.2 * 1028
Question
A tank with a volume of 0.200 m3 contains 27.0 °\degree C helium gas at a pressure of 63.5 atm. How many balloons can be blown up if each filled balloon is a sphere 30.0 cm in diameter at 27.0 °\degree C and absolute pressure of 1.20 atm? Assume all the helium is transferred to the balloons.

A) 1180 balloons
B) 884 balloons
C) 749 balloons
D) 375 balloons
Question
The average kinetic energy of a molecule in a monatomic ideal gas is given by:

A) <strong>The average kinetic energy of a molecule in a monatomic ideal gas is given by:</strong> A) B) C) D) none of the these. <div style=padding-top: 35px>
B) <strong>The average kinetic energy of a molecule in a monatomic ideal gas is given by:</strong> A) B) C) D) none of the these. <div style=padding-top: 35px>
C) <strong>The average kinetic energy of a molecule in a monatomic ideal gas is given by:</strong> A) B) C) D) none of the these. <div style=padding-top: 35px>
D) none of the these.
Question
A storeroom has a volume of 30 m3 and is filled with air of an average molecular mass of 29 u. What is the mass of the air in the room at a pressure of 1.0 atm and temperature of 22 °\degree C? R = 0.082 L · atm/mol · K

A) 36 kg
B) 1240 kg
C) 72 kg
D) 700 kg
Question
The specific heat at constant volume per mole of <strong>The specific heat at constant volume per mole of is for what type of molecule?</strong> A) monatomic B) diatomic C) polyatomic D) any type <div style=padding-top: 35px> is for what type of molecule?

A) monatomic
B) diatomic
C) polyatomic
D) any type
Question
What is the internal energy of 42 moles of Neon gas (molecular mass = 20 u) at 27 °\degree C? (R = 8.31 J/mol ·K)

A) 1.9 *0 105 J
B) 1.6 *105 J
C) 3.8 * 103 J
D) It depends on the container size, which is not given.
Question
What is (are) the unit(s) for the diffusion constant?

A) m2
B) m2/s
C) It is unitless.
D) m/s1/2
Question
Consider two containers with the same volume and temperature. Container One holds "dry" air (a mixture of nitrogen and oxygen). Container Two holds "moist" air. The "moist" air has the same ratio of nitrogen to oxygen molecules but also contains water vapor. According to the ideal gas law, if the pressures are equal, the weight of the gas in Container One will be:

A) lighter than the gas inside the second container.
B) equal to the weight of the gas in the second container.
C) heavier than the gas inside the second container.
D) all the above are incorrect because the pressures cannot be equal.
Question
A quantity of a monatomic ideal gas expands to four times the volume while maintaining the same pressure. If the internal energy of the gas were U0 before the expansion, what is it after the expansion?

A) U0
B) 2U0
C) 4U0
D) The change in temperature must also be known to answer this question.
Question
Suppose the pressure of 20 g of an ideal monatomic gas is tripled while its volume is halved. What happens to the internal energy of the gas?

A) It stays the same, as the described changes do not involve internal energy.
B) It increases.
C) It decreases 33%.
D) This depends on the molecular weight of the gas involved, thus this is indeterminate.
Question
When a sealed container of ideal gas has its temperature increase from 250 K to 500 K, what happens to the mean free path of the molecules?

A) It decreases to half of its original value.
B) It stays the same.
C) It increases by the factor <strong>When a sealed container of ideal gas has its temperature increase from 250 K to 500 K, what happens to the mean free path of the molecules?</strong> A) It decreases to half of its original value. B) It stays the same. C) It increases by the factor . D) It quadruples. <div style=padding-top: 35px> .
D) It quadruples.
Question
For a monatomic gas, <strong>For a monatomic gas, is</strong> A) the specific heat per mole at constant volume. B) the specific heat per unit mass at constant volume. C) . D) none of the above. <div style=padding-top: 35px> is

A) the specific heat per mole at constant volume.
B) the specific heat per unit mass at constant volume.
C) <strong>For a monatomic gas, is</strong> A) the specific heat per mole at constant volume. B) the specific heat per unit mass at constant volume. C) . D) none of the above. <div style=padding-top: 35px> .
D) none of the above.
Question
John rapidly pulls a plunger out of a cylinder, increasing its volume. As the plunger moves away, the gas molecules bouncing elastically off the plunger are:

A) rebounding at a higher speed than they would have if the plunger weren't removed.
B) rebounding at a lower speed than they would have if the plunger weren't removed.
C) rebounding at the same speed as they would have if the plunger weren't removed.
D) Whether they speed up or slow down depends on how fast the plunger is removed.
Question
In a system of ideal gas with P, V, and T constant, if the molecules diffuse an average displacement of 2 cm in 4 s, on the average what would the average displacement be for a time of 200 s?

A) 5 cm
B) 10 cm
C) 10 <strong>In a system of ideal gas with P, V, and T constant, if the molecules diffuse an average displacement of 2 cm in 4 s, on the average what would the average displacement be for a time of 200 s?</strong> A) 5 cm B) 10 cm C) 10 cm D) more than 10 cm <div style=padding-top: 35px> cm
D) more than 10 <strong>In a system of ideal gas with P, V, and T constant, if the molecules diffuse an average displacement of 2 cm in 4 s, on the average what would the average displacement be for a time of 200 s?</strong> A) 5 cm B) 10 cm C) 10 cm D) more than 10 cm <div style=padding-top: 35px> cm
Question
The temperature of a quantity of ideal gas in a sealed container is increased from 0°C to 819°C. What happens to the speed of the molecules with average kinetic energy of the gas as a result of this temperature increase?

A) It does not change since this speed is independent of temperature.
B) It increases but it is less than double the original speed.
C) It doubles.
D) It quadruples.
Question
If the temperature of a gas doubles, by what factor does the speed of a molecule with the average kinetic energy change?

A) It increases by a factor of 2.
B) It increases by a factor of <strong>If the temperature of a gas doubles, by what factor does the speed of a molecule with the average kinetic energy change?</strong> A) It increases by a factor of 2. B) It increases by a factor of . C) It increases by a factor of . D) It increases by a factor of 4. <div style=padding-top: 35px> .
C) It increases by a factor of <strong>If the temperature of a gas doubles, by what factor does the speed of a molecule with the average kinetic energy change?</strong> A) It increases by a factor of 2. B) It increases by a factor of . C) It increases by a factor of . D) It increases by a factor of 4. <div style=padding-top: 35px> .
D) It increases by a factor of 4.
Question
What is the internal energy of a monatomic ideal gas with pressure 6 *105 Pa and with volume 2 m3?

A) 6 *105 J
B) 18 * 105 J
C) 9 * 105 J
D) More information is needed to find this value.
Question
If the average kinetic energy of the molecules of a monatomic ideal gas at 30°C is doubled, what is the resulting temperature of the gas?

A) It becomes <strong>If the average kinetic energy of the molecules of a monatomic ideal gas at 30°C is doubled, what is the resulting temperature of the gas?</strong> A) It becomes \degree C. B) It becomes 606°C. C) It becomes 60°C. D) It becomes 333°C. <div style=padding-top: 35px> °\degree C.
B) It becomes 606°C.
C) It becomes 60°C.
D) It becomes 333°C.
Question
For an ideal gas of a given mass, if the pressure remains the same and the volume decreases:

A) the average kinetic energy of the molecules decreases.
B) the average kinetic energy of the molecules stays the same.
C) the average kinetic energy of the molecules increases.
D) Nothing can be determined about the molecular kinetic energy.
Question
The internal energy of a monatomic ideal gas is equal to which of the following?

A) (3/2)PV
B) (3/2)nT/V
C) 3T/P
D) none of these
Question
The noble gases, listed by increasing molecular weight, are He, Ne, Ar, Kr, Xe, and Rn. If samples of 1 mole each of these gases are placed in separate containers and heated to 300 K, which gas has the greatest internal energy and the molecules of which gas have the lowest average speed?

A) The He has the greatest internal energy, and Rn has the lowest speed.
B) The Rn has the greatest internal energy, and He has the lowest speed.
C) All the gases have the same internal energy, and Rn has the lowest speed.
D) All the gases have the same internal energy, and He has the lowest speed.
Question
If the temperature of an ideal gas contained in a box is increased:

A) the average velocity of the molecules in the box will be increased.
B) the average speed of the molecules in the box will be increased.
C) the distance between molecules in the box will be increased.
D) all of the above.
Question
If an average molecule diffuses to a displacement of 4 cm in 5 s, how long would it take for such a molecule to diffuse to a displacement of 16 cm?

A) 10 s
B) 20 s
C) 36 s
D) 80 s
Question
The absolute temperature of a monatomic ideal gas is directly proportional to which of the following properties, when taken as an average, of the molecules of that gas?

A) speed
B) momentum
C) mass
D) kinetic energy
Question
Suppose an average molecule's displacement is 1.2 m in one hour. What is the diffusion constant in SI units (m, kg, s).

A) 4.0 *10 - 4 SI units
B) 1.0 *10 - 4 SI units
C) 2.8 *10 - 5 SI units
D) 4.6 *10 - 8 SI units
Question
The ideal gas in a sealed container has its absolute temperature quadrupled. What happens to the average time between molecular collisions in the gas?

A) It stays the same.
B) It decreases to half its original value.
C) It decreases but not to half its original value.
D) It increases.
Question
In the uranium isotope separation for <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> and <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> , the gas molecules used are <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> molecule is different from that of the <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> molecule. The fluorine atoms involved are all <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?

A) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is 1.009.
B) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is 1.004.
C) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is 1.009.
D) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. <div style=padding-top: 35px> is 1.004.
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Deck 15: Gases and Kinetic Theory
1
Why do vapor bubbles get larger in boiling water as they approach the surface?

A) They only appear to get larger, this being a magnification effect due to looking through the water.
B) The bubbles' pressure increases as they rise.
C) The pressure in the water decreases as the bubble moves toward the surface.
D) Bubbles always get bigger after they form.
The pressure in the water decreases as the bubble moves toward the surface.
2
What thermodynamic quantity is held constant in Boyle's law?

A) pressure
B) volume
C) temperature
D) Both pressure and volume are each held constant.
temperature
3
Avogadro's number is related to the universal gas constant R and the number of moles n by:

A) NA = Rn
B) NA = R/n
C) NA = n/R
D) Avogadro's number cannot be related to these two quantities alone.
Avogadro's number cannot be related to these two quantities alone.
4
A 4.00-L container holds half a mole of an ideal gas at a pressure of 18.5 atm. What is the gas temperature? (R = 0.0821 L · atm/mol · K)

A) 1800 K
B) 1190 K
C) 901 K
D) 450 K
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5
An ideal gas is confined to a container with adjustable volume. The number of moles and temperature are constant. By what factor will the volume change if pressure quadruples?

A) 16
B) 4
C) 1/4
D) 1/16
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6
With molar quantity and temperature held constant, by what factor does the pressure of an ideal gas change when the volume is four times bigger?

A) 16
B) 4
C) 1/4
D) 1/16
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7
For a quantity of ideal gas, which of the following is constant?

A) PTV
B) P/TV
C) PT/V
D) PV/T
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8
In the relationship Δ\Delta P <strong>In the relationship \Delta P \Delta T , what scale is used for temperature?</strong> A) Fahrenheit B) Celsius C) Kelvin D) Both Celsius and Kelvin may be used since the degree size is the same for both. Δ\Delta T , what scale is used for temperature?

A) Fahrenheit
B) Celsius
C) Kelvin
D) Both Celsius and Kelvin may be used since the degree size is the same for both.
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9
The gas, <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?

A) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg g
B) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg kg
C) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg kg
D) <strong>The gas, , is used in outside grills, and several moles of this gas will burn during an afternoon's grilling. What is the mass of one molecule of this gas?</strong> A) g B) kg C) kg D) kg kg
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10
An ideal gas is confined to a container with constant volume. The number of moles is constant. By what factor will the pressure change if the absolute temperature triples?

A) 2/3
B) 1/3
C) 3
D) 9
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11
With volume and molar quantity held constant, by what factor does the absolute temperature change for an ideal gas when the pressure is three times bigger?

A) 0.3
B) 3.0
C) 5.0
D) 25.0
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12
The pressure in a constant-volume gas thermometer extrapolates to zero at what temperature?

A) 0 °\degree C
B) 0 K
C) 0 °\degree F
D) 0 Pa
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13
Four moles of nitrogen gas are contained in an enclosed cylinder with a movable piston. If the gas temperature is 298 K, and the pressure is 1.01 *106 N/m2, what is the volume? (R = 8.31 J/mol·K)

A) 9.81 *10-3 m3
B) 4.90 *10-3 m3
C) 17.3 *10-3 m3
D) 8.31 *10-3 m3
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14
An ideal gas is confined to a container with adjustable volume. The pressure and mole number are constant. By what factor will volume change if absolute temperature doubles?

A) 4.0
B) 2.0
C) 1/2
D) 1/4
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15
The value 1.38 *10-23 J/K is known as:

A) the universal gas constant.
B) Boltzmann's constant.
C) Avogadro's number.
D) the molar specific.
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16
Which law is for a quantity of gas held at constant volume?

A) Boyle's law
B) Charles's law
C) Gay-Lussac's law
D) Avogadro's law
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17
Four moles of nitrogen gas are contained in an enclosed cylinder with a movable piston. If the molecular mass of nitrogen is 28 u, how many grams of nitrogen are present?

A) 0.14
B) 56
C) 42
D) 112
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18
What is the mass of 2 moles of carbon dioxide?

A) 88 g
B) 80 g
C) 64 g
D) 56 g
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19
How many molecules are there in 14 grams of nitrogen gas?

A) NA/2
B) NA
C) 2 NA
D) The answer is not given.
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20
What is the mass of a mole of oxygen gas?

A) 8 g
B) 16 g
C) 24 g
D) 32 g
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21
Suppose there are 2 moles of a gas in a container of fixed size and the average spacing of molecules in the container is 4.0 nm. If an additional 14 moles of the gas are added to the container and thermal equilibrium is established, what is the new average spacing of the molecules?

A) 2.0 nm
B) 0.50 nm
C) 1.4 nm
D) 2.8 nm
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22
One way to heat a gas is to compress it. A gas at 1.00 atm at 25.0 °\degree C is compressed to one tenth of its original volume, and it reaches 30.0 atm pressure. What is its new temperature?

A) 1500 K
B) 621 °\degree C
C) 1192 °\degree C
D) 919 °\degree C
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23
The volume holding 0.63 mole of an ideal gas is compressed to 1/4 of its original volume by a piston. At the same time the pressure of the gas triples. If the original absolute temperature of the gas was T, that is the new temperature after compression?

A) 4/3T
B) 3/4T
C) 0.63(3/4T)
D) 0.63(4/3T)
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24
The sulfur hexafluoride molecule consists of one sulfur atom and six fluorine atoms. The atomic masses of sulfur and fluorine are 32.0 u and 19.0 u, respectively. One-half mole of this very heavy gas has what mass?

A) 32 g
B) 73 g
C) 146 g
D) 608 g
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25
A spherical air bubble originating from a scuba diver at a depth of 30.0 m has a diameter of 1.0 cm. What will the bubble's diameter be when it reaches the surface? (Assume constant temperature.)

A) 0.7 cm
B) 1.0 cm
C) 1.4 cm
D) 1.6 cm
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26
Boltzmann's constant, kB, may be derived as a function of R, the universal gas constant, and NA, Avogadro's number. Which expresses the value of kB?

A) NAR2
B) NAR
C) R/NA
D) NA/R
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27
Tricia puts 66 g of dry ice (solid CO2) into a 2.0-L container and seals the top. The dry ice turns to gas at room temperature (20 °\degree C). Find the pressure increase in the 2.0-L container. (One mole of CO2 has a mass of 44 g and R = 0.0821 L·atm/mol·K. Ignore the initial volume of the dry ice.)

A) 6.0 atm
B) 12 atm
C) 18 atm
D) 2.0 atm
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28
A helium-filled weather balloon has a 0.90-m radius at liftoff where air pressure is 1.0 atm and the temperature is 298 K. When airborne, the temperature is 210 K, and its radius expands to 3.5 m. What is the pressure at the airborne location?

A) 0.50 atm
B) 0.012 atm
C) 0.019 atm
D) 0.38 atm
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29
Estimate the volume of a helium-filled balloon if it is to lift a payload of 1000 kg. The density of air is 1.29 kg/m3 and helium has a density of 0.178 kg/m3.

A) 4410 m3
B) 900 m3
C) 450 m3
D) 225 m3
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30
The mass of a hot-air balloon and its cargo (not including the air inside) is 250 kg. The air outside is at a temperature of 10 °\degree C and a pressure of 1 atm = 105 N/m2. The volume of the balloon is 400 m3. Which temperature below of the air in the balloon will allow the balloon to just lift off? (Air density at 10 °\degree C is 1.25 kg/m3.)

A) 37 °\degree C
B) 293 °\degree C
C) 99 °\degree C
D) 200 °\degree C
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31
If the temperature of a volume of ideal gas increases for 100°C to 200°C, what happens to the average kinetic energy of the molecules?

A) It halves.
B) It doubles.
C) It increases but less that double.
D) It increases more than double.
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32
The ideal gas law treats gas as consisting of:

A) atoms.
B) molecules.
C) chemicals.
D) bubbles.
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33
Two moles of an ideal gas at 3.0 atm and 10 °\degree C are heated up to 100 °\degree C. If the volume is held constant during this heating, what is the final pressure?

A) 4.5 atm
B) 4.0 atm
C) 0.14 atm
D) 1.0 atm
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34
One mole of an ideal gas at 1.00 atm and 0.00 °\degree C occupies 22.4 L. How many molecules of an ideal gas are in one cm3 under these conditions?

A) 28.9
B) 22,400
C) 2.69 *1019
D) 6.02 * 1023
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35
A pressure of 2.0 *10 - 7 mm of Hg is achieved in a vacuum system. How many gas molecules are present per liter volume if the temperature is 293 K? (760 mm of Hg = 1 atm, R = 0.0821 L · atm/mol · K, and NA = 6.02 *1023)

A) 16 * 1018
B) 6.6 * 1012
C) 3.3 *1012
D) 3.4 *109
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36
How many moles of air must escape from a 10 m * 8.0 m *5.0 m room when the temperature is raised from 0 °\degree C to 10 °\degree C? Assume the pressure remains unchanged at one atmosphere while the room is heated.

A) 1.3 *103 moles
B) 1.2 * 103 moles
C) 6.5 *102 moles
D) 3.7 * 102 moles
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37
How many atoms are present in a sample of pure iron with a mass of 210 g? (The atomic mass of iron = 56 u and NA = 6.02* 1023.)

A) 1.8 *1019
B) 2.3 *1028
C) 2.3 *1024
D) 3.2 * 1028
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38
A tank with a volume of 0.200 m3 contains 27.0 °\degree C helium gas at a pressure of 63.5 atm. How many balloons can be blown up if each filled balloon is a sphere 30.0 cm in diameter at 27.0 °\degree C and absolute pressure of 1.20 atm? Assume all the helium is transferred to the balloons.

A) 1180 balloons
B) 884 balloons
C) 749 balloons
D) 375 balloons
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39
The average kinetic energy of a molecule in a monatomic ideal gas is given by:

A) <strong>The average kinetic energy of a molecule in a monatomic ideal gas is given by:</strong> A) B) C) D) none of the these.
B) <strong>The average kinetic energy of a molecule in a monatomic ideal gas is given by:</strong> A) B) C) D) none of the these.
C) <strong>The average kinetic energy of a molecule in a monatomic ideal gas is given by:</strong> A) B) C) D) none of the these.
D) none of the these.
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40
A storeroom has a volume of 30 m3 and is filled with air of an average molecular mass of 29 u. What is the mass of the air in the room at a pressure of 1.0 atm and temperature of 22 °\degree C? R = 0.082 L · atm/mol · K

A) 36 kg
B) 1240 kg
C) 72 kg
D) 700 kg
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41
The specific heat at constant volume per mole of <strong>The specific heat at constant volume per mole of is for what type of molecule?</strong> A) monatomic B) diatomic C) polyatomic D) any type is for what type of molecule?

A) monatomic
B) diatomic
C) polyatomic
D) any type
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42
What is the internal energy of 42 moles of Neon gas (molecular mass = 20 u) at 27 °\degree C? (R = 8.31 J/mol ·K)

A) 1.9 *0 105 J
B) 1.6 *105 J
C) 3.8 * 103 J
D) It depends on the container size, which is not given.
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43
What is (are) the unit(s) for the diffusion constant?

A) m2
B) m2/s
C) It is unitless.
D) m/s1/2
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44
Consider two containers with the same volume and temperature. Container One holds "dry" air (a mixture of nitrogen and oxygen). Container Two holds "moist" air. The "moist" air has the same ratio of nitrogen to oxygen molecules but also contains water vapor. According to the ideal gas law, if the pressures are equal, the weight of the gas in Container One will be:

A) lighter than the gas inside the second container.
B) equal to the weight of the gas in the second container.
C) heavier than the gas inside the second container.
D) all the above are incorrect because the pressures cannot be equal.
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45
A quantity of a monatomic ideal gas expands to four times the volume while maintaining the same pressure. If the internal energy of the gas were U0 before the expansion, what is it after the expansion?

A) U0
B) 2U0
C) 4U0
D) The change in temperature must also be known to answer this question.
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46
Suppose the pressure of 20 g of an ideal monatomic gas is tripled while its volume is halved. What happens to the internal energy of the gas?

A) It stays the same, as the described changes do not involve internal energy.
B) It increases.
C) It decreases 33%.
D) This depends on the molecular weight of the gas involved, thus this is indeterminate.
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47
When a sealed container of ideal gas has its temperature increase from 250 K to 500 K, what happens to the mean free path of the molecules?

A) It decreases to half of its original value.
B) It stays the same.
C) It increases by the factor <strong>When a sealed container of ideal gas has its temperature increase from 250 K to 500 K, what happens to the mean free path of the molecules?</strong> A) It decreases to half of its original value. B) It stays the same. C) It increases by the factor . D) It quadruples. .
D) It quadruples.
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48
For a monatomic gas, <strong>For a monatomic gas, is</strong> A) the specific heat per mole at constant volume. B) the specific heat per unit mass at constant volume. C) . D) none of the above. is

A) the specific heat per mole at constant volume.
B) the specific heat per unit mass at constant volume.
C) <strong>For a monatomic gas, is</strong> A) the specific heat per mole at constant volume. B) the specific heat per unit mass at constant volume. C) . D) none of the above. .
D) none of the above.
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49
John rapidly pulls a plunger out of a cylinder, increasing its volume. As the plunger moves away, the gas molecules bouncing elastically off the plunger are:

A) rebounding at a higher speed than they would have if the plunger weren't removed.
B) rebounding at a lower speed than they would have if the plunger weren't removed.
C) rebounding at the same speed as they would have if the plunger weren't removed.
D) Whether they speed up or slow down depends on how fast the plunger is removed.
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50
In a system of ideal gas with P, V, and T constant, if the molecules diffuse an average displacement of 2 cm in 4 s, on the average what would the average displacement be for a time of 200 s?

A) 5 cm
B) 10 cm
C) 10 <strong>In a system of ideal gas with P, V, and T constant, if the molecules diffuse an average displacement of 2 cm in 4 s, on the average what would the average displacement be for a time of 200 s?</strong> A) 5 cm B) 10 cm C) 10 cm D) more than 10 cm cm
D) more than 10 <strong>In a system of ideal gas with P, V, and T constant, if the molecules diffuse an average displacement of 2 cm in 4 s, on the average what would the average displacement be for a time of 200 s?</strong> A) 5 cm B) 10 cm C) 10 cm D) more than 10 cm cm
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51
The temperature of a quantity of ideal gas in a sealed container is increased from 0°C to 819°C. What happens to the speed of the molecules with average kinetic energy of the gas as a result of this temperature increase?

A) It does not change since this speed is independent of temperature.
B) It increases but it is less than double the original speed.
C) It doubles.
D) It quadruples.
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52
If the temperature of a gas doubles, by what factor does the speed of a molecule with the average kinetic energy change?

A) It increases by a factor of 2.
B) It increases by a factor of <strong>If the temperature of a gas doubles, by what factor does the speed of a molecule with the average kinetic energy change?</strong> A) It increases by a factor of 2. B) It increases by a factor of . C) It increases by a factor of . D) It increases by a factor of 4. .
C) It increases by a factor of <strong>If the temperature of a gas doubles, by what factor does the speed of a molecule with the average kinetic energy change?</strong> A) It increases by a factor of 2. B) It increases by a factor of . C) It increases by a factor of . D) It increases by a factor of 4. .
D) It increases by a factor of 4.
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53
What is the internal energy of a monatomic ideal gas with pressure 6 *105 Pa and with volume 2 m3?

A) 6 *105 J
B) 18 * 105 J
C) 9 * 105 J
D) More information is needed to find this value.
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54
If the average kinetic energy of the molecules of a monatomic ideal gas at 30°C is doubled, what is the resulting temperature of the gas?

A) It becomes <strong>If the average kinetic energy of the molecules of a monatomic ideal gas at 30°C is doubled, what is the resulting temperature of the gas?</strong> A) It becomes \degree C. B) It becomes 606°C. C) It becomes 60°C. D) It becomes 333°C. °\degree C.
B) It becomes 606°C.
C) It becomes 60°C.
D) It becomes 333°C.
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55
For an ideal gas of a given mass, if the pressure remains the same and the volume decreases:

A) the average kinetic energy of the molecules decreases.
B) the average kinetic energy of the molecules stays the same.
C) the average kinetic energy of the molecules increases.
D) Nothing can be determined about the molecular kinetic energy.
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56
The internal energy of a monatomic ideal gas is equal to which of the following?

A) (3/2)PV
B) (3/2)nT/V
C) 3T/P
D) none of these
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57
The noble gases, listed by increasing molecular weight, are He, Ne, Ar, Kr, Xe, and Rn. If samples of 1 mole each of these gases are placed in separate containers and heated to 300 K, which gas has the greatest internal energy and the molecules of which gas have the lowest average speed?

A) The He has the greatest internal energy, and Rn has the lowest speed.
B) The Rn has the greatest internal energy, and He has the lowest speed.
C) All the gases have the same internal energy, and Rn has the lowest speed.
D) All the gases have the same internal energy, and He has the lowest speed.
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58
If the temperature of an ideal gas contained in a box is increased:

A) the average velocity of the molecules in the box will be increased.
B) the average speed of the molecules in the box will be increased.
C) the distance between molecules in the box will be increased.
D) all of the above.
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59
If an average molecule diffuses to a displacement of 4 cm in 5 s, how long would it take for such a molecule to diffuse to a displacement of 16 cm?

A) 10 s
B) 20 s
C) 36 s
D) 80 s
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60
The absolute temperature of a monatomic ideal gas is directly proportional to which of the following properties, when taken as an average, of the molecules of that gas?

A) speed
B) momentum
C) mass
D) kinetic energy
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61
Suppose an average molecule's displacement is 1.2 m in one hour. What is the diffusion constant in SI units (m, kg, s).

A) 4.0 *10 - 4 SI units
B) 1.0 *10 - 4 SI units
C) 2.8 *10 - 5 SI units
D) 4.6 *10 - 8 SI units
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62
The ideal gas in a sealed container has its absolute temperature quadrupled. What happens to the average time between molecular collisions in the gas?

A) It stays the same.
B) It decreases to half its original value.
C) It decreases but not to half its original value.
D) It increases.
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63
In the uranium isotope separation for <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. and <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. , the gas molecules used are <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. molecule is different from that of the <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. molecule. The fluorine atoms involved are all <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?

A) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is 1.009.
B) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is 1.004.
C) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is 1.009.
D) The <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is the faster one. The ratio of its speed to that of <strong>In the uranium isotope separation for and , the gas molecules used are , uranium hexafluoride. The key to the separation is that in thermal equilibrium the average speed of the molecule is different from that of the molecule. The fluorine atoms involved are all . Which of the hexafluoride molecules has the higher average speed and what is the ratio of the faster speed to the slower speed?</strong> A) The is the faster one. The ratio of its speed to that of is 1.009. B) The is the faster one. The ratio of its speed to that of is 1.004. C) The is the faster one. The ratio of its speed to that of is 1.009. D) The is the faster one. The ratio of its speed to that of is 1.004. is 1.004.
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