gases. particles in an ideal gas… have no volume. have elastic collisions. are in constant,...
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Gases
Physical Properties
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Particles in an ideal gas…have no volume.have elastic collisions. are in constant, random, straight-line
motion.don’t attract or repel each other.have an avg. KE directly related to
Kelvin temperature.
Kinetic Molecular Theory
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Particles in a REAL gas…have their own volumeattract each other
Gas behavior is most ideal…at low pressuresat high temperaturesin nonpolar atoms/molecules
Real Gases
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Gases expand to fill any container.random motion, no attraction
Gases are fluids (like liquids).no attraction
Gases have very low densities.no volume = lots of empty space
Characteristics of Gases
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Gases can be compressed.no volume = lots of empty space
Gases undergo diffusion & effusion.random motion
Characteristics of Gases
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Always use absolute temperature (Kelvin) when working with gases.
Temperature
ºF
ºC
K
-459 32 212
-273 0 100
0 273 373
32FC 95 K = ºC + 273
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Pressure
area
forcepressure
Which shoes create the most pressure?
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Barometermeasures atmospheric pressure
Pressure
Mercury Barometer
Aneroid Barometer
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Manometermeasures contained gas pressure
Pressure
U-tube Manometer Bourdon-tube gauge
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KEY UNITS AT SEA LEVEL
101.325 kPa (kilopascal)
1 atm
760 mm Hg
760 torr
14.7 psi
Pressure
2m
NkPa
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STP
Standard Temperature & Pressure
0°C 273 K
1 atm 101.325 kPa-OR-
STP
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Boyle’s Law
In 1662, Robert Boyle discovered that the volume of a gas is inversely proportional to its pressure (at constant temperature).
P
V
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Boyles Law
P1V1 = k
P1V1 = P2V2
P1V1 = k = P2V2
K is a constant and has units of L-atm
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V
T
Charles’ Law
Charles discovered that the volume and absolute temperature (K) of a gas were related (at constant pressure).
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Charles’ Law
V
T
The volume of gases extrapolates to zero at -273 oC or 0 K. When the gases exceed this point the volume calculation would suggest that the gases would have a negative volume.
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Charles’ Law
V = bT
V1 T1
= b = V2 T2
V1 T1
V2 T2
=
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Combined Gas LawPressure and Temperature are also proportional (at constant volume).By putting all relationships together, it forms the Combined Gas Law.
P1V1 T1
P2V2 T2
=
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Avogadro’s LawIn 1811, Avogadro proposed that equal volumes of gases contain equal numbers of particles (at same T, P) It followed that the volume of a gas is proportional to the number of moles.
V1 n1
V2 n2
=
V = na
V1 n1
= a = V2 n2
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Ideal gas Law
V = na
V = bT
PV = k Boyle’s law
Charles’s law
Avogrado’s law
At constant T and n
At constant P and n
At constant T and P
Can be combined to form:
PV = nRT
R = 0.08206 L-atm/K-mol
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Dalton’s LawThe total pressure of a mixture of gases equals the sum of the partial pressures of the individual gases.
Ptotal = P1 + P2 + ...When a H2 gas is collected by water displacement, the gas in the collection bottle is actually a mixture of H2 and water vapor.