gas law review
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Gas Law Review. Properties of Gases. No definite shape It fills its container Compressible With increases in pressure Low Density Molecules are far apart Intermolecular forces are ignored Diffusion Molecules can randomly spread out. Ideal Gas. Theoretical description of gases - PowerPoint PPT PresentationTRANSCRIPT
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Gas Law Review
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No definite shape◦ It fills its container
Compressible◦ With increases in pressure
Low Density◦ Molecules are far apart◦ Intermolecular forces are ignored
Diffusion◦ Molecules can randomly spread out
Properties of Gases
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Theoretical description of gases◦ Disregard the volume of the molecule itself
◦ Disregard any attractive force between molecules
Real gases stray from ideal gases at:◦ LOW Temperatures
◦ HIGH Pressures
Ideal Gas
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At STP (Standard temperature and pressure), all gases have a volume of 22.4 L.
Standard Temperature:◦ 0oC◦ 273 K
Standard Pressure:◦ 101.3 kPa◦ 1 atm◦ 760 torr (or mmHg)
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The volume of a quantity of gas, at constant pressure, varies directly with the Kelvin temperature.
Temperature MUST be in Kelvin! (oC + 273)
Charles Law
2
2
1
1
TV
TV
@ constant Pressure
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A gas is collected at 58oC and has a volume of 225mL. What volume will it occupy at standard temperature, if pressure remains constant?
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133127358 TKCo 2
2
1
1
TV
TV
Since the temperature decreases, pressure must decrease!
T1= 331 KV1 = 225 mLT2 = 273 KV2 = ?
KKmL
273?
331225
186 mL = 0.186 L
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As pressure increases, volume decreases.
Temperature MUST be constant.
Boyles Law
2211 VPVP
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A sample of O2 gas at 0.947atm has a volume of 150mL. What would its volume be at 0.987atm if the temperature stay constant?
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2211 VPVP P1 = 0.947 atmV1 = 150 mLP2 = 0.987 atmV2 = ? ?987.0150947.0 atmmLatm
144mL = 0.144L
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Gay-Lussac’s Law
2
2
1
1
TP
TP
Volume is constant
* Remember, Temperature MUST be in Kelvin
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Combined Gas Law
2
22
1
11
TVP
TVP
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An aerosol can has a pressure of 103 kPa at 25oC. It is thrown into a fire and its temperature increases to 928oC. What will its pressure be?
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2
2
1
1
VP
VP
P1 = 103 kPaP2 = ?T1 = 25 oC + 273 = 298 KT2 = 928 oC + 273 = 1201 K
KP
KkPa
1201298103 2 P2 = 415 kPa
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The volume of a gas-filled balloon is 30.0 L at 313 K and 153 kPa. What would the volume be at STP?
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2
22
1
11
TVP
TVP
V1 = 30.0LT1 = 313 KP1 = 153 kPaV2 = ?T2 = 273 KP2 = 101.3 kPa
KVkPa
KLkPa
2733.101
3130.30153 2
2371.07.14 V
V2 = 39.6 L
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Ideal Gas LawnRTPV
P = pressure
V = volume (in Liters!)
n = moles
T = temperatre (in Kelvin!)
R = gas constant
Gas constants
KmolkPaL
31.8
KmolatmL
082.0
KmoltorrL
4.62
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What volume would be occupied by 1.00 moles of gas at 0oC at 1 atm pressure?
Find Volume
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nRTPV
P = 1 atmV = ?n = 1 molR = 0.082 (because pressure is in atm)T = 0oC + 273 = 273 K
KKmol
atmLmolVatm 273082.011
V = 22.4L
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Equal volumes of gases at the same temperature and pressure contain equal numbers of particles.
Molar Volume- for a gas, the volume that one mole occupies at STP◦ Temp = 0oC or 273K◦ Pressure = 1 atm or 101.3 kPa or 760 torr (mmHg)
Avogadro’s Principle
1 mole = 22.4 Liters
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Determine the volume of a container that holds 2.4 mol of gas at STP.
Practice
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molLmol
14.224.2 54 L
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If 100L of hydrogen gas react at STP, how many grams of hydrogen chloride can form?
1 H2 + 1 Cl2 2 HCl
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molHClgHCl
molHmolHCl
LmolHL
15.36
12
4.221100
2
2
326 g HCl
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The sum of the individual gas pressures equals the overall pressure of the mixture of gases.
Dalton’s Law of Partial Pressure
totalPPPP .......321
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If a container has 166 torr H2, 109 torr CO2 and 176 torr of O2, what is the total pressure of the mixture?
116 torr + 109 torr + 176 torr = 401 torr
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Our atmosphere is made of 21% O2, 78% N2 and 1% other gases. At sea level (standard pressure), what is the partial pressure of oxygen?
760 torr x 0.21 = 159 torr O2
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The spontaneous spreading of particles
The rate of diffusion depends on the velocities and masses of the molecules
Effusion – the process by which a gas escapes from a small hole in a container
Lighter gases ALWAYS diffuse/effuse faster than heavier molecules
Diffusion
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The relative rates at which two gases, at the same temperature and pressure, will diffuse, vary inversely as the square root of the molecular mass of the gases.
Grahams Law of Diffusion
1
2
2
1
mm
vv
**Always consider gas 1 the lighter gas
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Compute the relative rates of diffusion of helium and argon.◦ go to the periodic table for molar mass of He and
Ar
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1
2
2
1
mm
vv
Mass He = 4 g/molMass Ar = 40 g/mol
16.310440
2
1 vv
116.316.3
2
1 vv So, helium
diffuses 3x’s faster than argon.