the gas laws - cvusd home 2015/ch 13... · the ideal gas law ideal gas follows all gas laws under...
TRANSCRIPT
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The Gas Laws
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As P (h) increases V decreases
Apparatus for Studying the Relationship
Between Pressure and Volume of a Gas
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P x V = constant
P1 x V1 = P2 x V2
Boyle’s Law
Constant temperature
Constant amount of gas
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Example 1
A helium balloon was compressed from 4.0L to 2.5L at a constant temperature. If the pressure of the gas in the 4.0L balloon is 210 kPA, what
will the pressure be at 2.5L? Given:
V1 = 4.0L V2 = 2.5L P1= 210 kPa P2 = ?
P1V1 = P2V2
(210 kPa) × (4.0L) = P2 × (2.5L) P2 = 336 kPa ≈ 340 kPa
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Example 2
A sample of neon gas occupies 0.200L at 0.860 atm. What will be its volume at 29.2 kPa
pressure?
Given: V1 = 0.200L V2 = ? P1= 0.860 atm P2 = 29.2 kPa
P1V1 = P2V2
(87.1 kPa) × (0.200L) = (29.2 kPa) × V2 V2 = 0.597L
**Units must match for each variable (doesn’t matter which one is converted)
0.860 atm 101.3 kPa 1 atm
= 87.1 kPa
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As T increases V increases
Variation in Gas Volume with
Temperature at Constant Pressure
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K = 0C + 273
**Temperature
must be
in Kelvin
Charles’s Law
Constant pressure
Constant amount of gas
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Example 1
A gas ample at 40.0°C occupies a volume of 2.32L. If the temperature is raised to 75.0°C, what will the volume be, assuming the pressure remains constant?
Given: T1 = 40.0°C = 313K T2 = 75.0°C = 348K V1= 2.32L V2 = ?
V1 V2
T1 T2 =
2.32L V2
313 348 =
V2 = 2.58L
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Example 2
A gas ample at 55.0°C occupies a volume of 3.50L. At what new temperature in kelvin will the volume increase to 8.00L?
Given: T1 = 55.0°C = 328K T2 = ? V1= 3.50L V2 = 8.00L
V1 V2
T1 T2 =
3.50L 8.00
328 T2 =
T2 = 750K
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Gay-Lussac’s Law
K = 0C + 273
**Temperature
must be
in Kelvin
Constant volume
Constant amount of gas
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Example 1
The pressure of a gas in a tank is 3.20 atm at 22.0°C. If the temperature rises to 60.0°C, what will be the gas pressure in the tank?
Given: P1 = 3.20 atm P2 = ? T1= 22.0°C = 295K T2 = 60.0°C =333K
P1 P2
T1 T2 =
3.20 atm P2
295K 333K =
P2 = 3.61 atm
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Example 2 A rigid container has a gas at constant volume at 665 torr pressure when the temperature is 22.0C. What will the pressure be if the temperature is raised to 44.6C?
Given: P1 = 665 torr P2 = ? T1= 22.0°C = 295K T2 = 44.6°C =317.6K
P1 P2
T1 T2 =
665 torr P2
295K 317.6K =
P2 = 716 torr
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What is the same about these gases? What is different about these gases?
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What is the relationship between number of moles and volume?
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Avogadro’s Law
Constant temperature
Constant pressure
1 mol of gas at STP = 22.4L
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Gas Stoichiometry
When gases are involved, the coefficients in a balanced
chemical equation represent not only molar amounts
(mole ratios) but also relative volumes (volume ratios).
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Example 1
5.00 L of a gas is known to contain 0.965 mol. If the amount of gas is increased to 1.80 mol, what will be the new volume? Assume constant temperature and
pressure. Given:
V1 = 5.00 L V2 = ? n1= 0.965 mol n2 = 1.80 mol
V1 V2
n1 n2 =
5.00 L V2
0.965 mol 1.80 mol =
V2 = 9.33 L
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Example 2
Calculate the volume that 0.881 mol of gas at STP will occupy.
0.881 mol 22.4 L 1 mol
= 19.7 L
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Example 3
How many grams of carbon dioxide gas are in a 0.75 L balloon at STP?
0.75 L CO2 1 mol CO2 44.01 g CO2 22.4 L CO2 1 mol CO2
= 1.5 g CO2
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Example 4
What volume of oxygen gas is needed for the complete combustion of 4.00 L of propane gas
(C3H8)? Assume constant temperature and pressure.
= 20.0 L 4.00 L C3H8 5 L O2
1 L C3H8
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Gas Law Summary
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Gay-Lussac’s Law
Charles’s Law
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Combined Gas Law
Combine all 4 to make one master equation:
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Example 1
A gas at 110 kPa and 30.0˚C fills a flexible container with an initial volume of 2.00L. If the temperature is raised to 80.0˚C and the pressure increased to 440
kPa, what is the new volume?
Given: P1 = 110 kPa P2 = 440 kPa T1 = 30.0˚C =303K T2 = 80.0˚C = 353K V1 = 2.00L V2 = ?
110 (2.00) 440 (V2)
303 353
=
V2 = 0.583L ≈ 0.58L
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Example 2 An unopened bottle of soda contains 46.0 mL of gas confined at a pressure of 1.30 atm and temperature
of 5.00˚C. If the bottle is dropped into a lake and sinks to a depth at which the pressure and
temperature changes to 1.52 atm and 2.90˚C, what will be the volume of gas in the bottle?
Given: V1 = 46.0 mL V2 = ? P1 = 1.30 atm P2 = 1.52 atm T1 = 5.00˚C = 278K T2 = 2.90˚C = 275.9K
1.30 (46.0) 1.52 (V2)
278 275.9
=
V2 = 39.0mL
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The Ideal Gas Law
Ideal Gas
Follows all gas laws under
all conditions of temperature
and pressure.
Follows all conditions of the
Kinetic Molecular Theory
(KMT)
An ideal gas does not exist
in real life
Real Gas
Follows some gas laws under
some conditions of temperature
and pressure.
Does not conform to the Kinetic
Molecular Theory. Real gases
have a volume and attractive and
repulsive forces.
• A real gas differs from an ideal
gas the most at low temperature
and high pressure.
Low T gas is moving less High P gas is more attractive
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Ideal Gas law
R is the universal gas
constant PV = nRT
R = PV
nT =
(1 atm)(22.4L)
(1 mol)(273K)
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Example 1
Calculate the number of moles of gas contained in a 3.00L vessel at 298K with a pressure of 1.50 atm.
V = 3.00L T = 298K P = 1.50atm n = ? R = 0.0821 L atm mol K
PV=nRT
(1.50)(3.00) = n (0.0821) (298)
n= 0.184 mol
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Example 2
What will the pressure (in kPa) be when there are 0.400 mol of gas in a 5.00L container at 17.0˚C?
V = 5.00L T = 17.0˚C = 290K P = ? kPa n = 0.400 mol R = 8.314 L kPa mol K
PV=nRT
P(5.00) = (0.400)(8.314)(290)
P= 193 kPa
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Stoichiometry
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Example 1
If 5.00L of nitrogen reacts completely with excess hydrogen at a constant pressure and temperature of
3.00 atm and 298K, how many grams of ammonia are produced.
0.613 mol N2 2 mol NH3 17.04 g NH3 1 mol N2 1 mol NH3
= 120.9 g NH3
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Example 2
How many grams of calcium carbonate will be needed to form 6.75L of carbon dioxide at a
pressure of 2.00 atm and 298K?
CaCO3(s) CO2(g) + CaO(s)
0.552 mol CO2 1 mol CaCO3 100.09 g CaCO3 1 mol CO2 1 mol CaCO3
= 55.2 g CaCO3
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Example 3
How many liters of chlorine will be needed to make 95.0 grams of C2H2Cl4 at 3.50 atm and 225K?
Cl2(g) + C2H4(g) C2H2Cl4(l)
95.0 g C2H2Cl4 1 mol C2H2Cl4 2 mol Cl2 167.84 g C2H2Cl4 1 mol C2H2Cl4
= 1.13mol Cl2
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37
Density (d) Calculations
n V
= P
RT
m is the mass of the gas in g
M is the molar mass of the gas
Molar Mass (M ) of a Gaseous Substance
dRT
P M =
d is the density of the gas in g/L
d = m V
d = PM RT
n = m
M
m M V
= P
RT so
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Example 1
What is the molar mass of a pure gas that has a density of 1.40g?L at STP?
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Example 2
Calculate the density a gas will have at STP if its molar mass is 39.9g/mol.