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Chapter 12: States Of Matter
Sec. 12.1: Gases
Objectives Use the kinetic-molecular theory to
explain the behavior of gases. Describe how mass effects rates of
diffusion and effusion. Explain how gas pressure is
measured and calculate the partial pressure of a gas.
Properties of Substances Chemical & physical properties of
substances depend on composition (the atoms present) & structure (arrangement of atoms).
However, substances that are gases display similar properties despite different compositions!
Kinetic Molecular Theory (1860)
Gases studied were molecules. Objects in motion have energy
called kinetic energy. The kinetic molecular theory
describes the behavior of gases in terms of particles in motion.
Kinetic Molecular Theory The kinetic molecular theory
assumes that gas particles have a VERY SMALL volume and that they are separated from one another by a LARGE volume of space.
Because they are so far apart, there is no attraction or repulsion between gas particles.
Kinetic Molecular Theory Gas particles are in
constant, random motion.
They move in straight lines until collision.
Collisions between gas particles are elastic. (There is no overall loss of kinetic energy.)
Kinetic Molecular Theory 2 factors determine the kinetic
energy of a gas particle: mass and velocity
Within a gas sample, the mass does not vary but velocity will. Therefore, when we talk about KE, we really mean average KE.
Kinetic Molecular Theory Temperature is a measure of the
average kinetic energy of the particles in a sample of matter. At a given temperature, all gas particles
will have the SAME average kinetic energy.
Behavior of Gases The constant
motion of gas particles allows a gas to expand until it fills its container.
Behavior of Gases Gases have a low density. (Remember: D = mass/volume)
There are fewer gas particles in a given volume than in the same volume of a liquid or solid.
A great deal of space exists between the gas particles.
Behavior of Gases Gases are
compressible (able to have their volume reduced) because there is so much empty space between gas particles.
Behavior of Gases Diffusion is the term used to describe
the movement of one material through another. Gases have no forces of attraction for one another so diffusion is possible.
Due to diffusion, gas particles tend to move from areas of high concentration to areas of low concentration, until they are evenly distributed.
Behavior of Gases Rate of diffusion depends on the mass
of the gas particles. Light particles, at the same temperature
as heavier particles, will have a greater velocity. They will therefore diffuse quicker.
Effusion is related to diffusion. During effusion, a gas escapes through a tiny opening.
Behavior of Gases Graham’s law of effusion states that
the rate of effusion for a gas is inversely proportional to the square root of its molar mass. This law can also be applied to diffusion rates.
Practice Problems What is the ratio of the diffusion rate of
ammonia to hydrogen chloride? Calculate the ratio of effusion for neon to
nitrogen. Calculate the ratio of diffusion rates for
carbon monoxide to carbon dioxide.
Gas Pressure Pressure is
defined as force per unit area.
Gas particles exert pressure when they collide with the walls of their container.
Gas Pressure Since pressure is a
result of collisions between all of the gas particles and the surfaces around them, the amount of pressure increases when the number of particles in a given volume increases.
Atmospheric PressureThe gas particles in air move in all directions, and so, exert air pressure in all directions.There is less air pressure at high altitudes because there are fewer particles present, since the force of gravity is less.Torricelli was the first to demonstrate that air exerted pressure.He invented the barometer, an instrument used to measure atmospheric air pressure.
Atmospheric Pressure
A barometer has a closed tube that is inverted in a pool of Hg. The Hg rises & falls in the tube in response to the amount of air pressure applied to
the Hg.
Atmospheric Pressure Torricelli showed that at the
Earth’s surface, the height of the Hg in the barometer was always about 760 mm Hg. (mm Hg stands for millimeters of mercury).
This is considered standard air pressure.
Units of Pressure The SI unit of pressure is the
pascal (Pa). Standard air pressure is 101,300 Pa or 101.3 kPa.
Standard air pressure in more traditional units is: 14.7 psi (pounds per square inch) 760 torr (1 torr = 1 mm Hg) 1 atm (atmosphere)
Practice Problems Determine the value of each in kPa.
3.5 atm 930 torr 560 mm Hg
Measuring Gas Pressure
A closed or open ended manometer is used to measure gas pressure in a closed container.
In a manometer, the difference in the levels levels of Hg in the U-tube is used to calculate the gas pressure in mm Hg.
Dalton’s Law of Partial Pressure This law states that the total
pressure of a mixture of gases is equal to the sum of the pressures of all the gases in the mixture.
The portion of the total pressure contributed by a single gas is called the partial pressure.
Dalton’s Law of Partial Pressure Mathematically: P1 + P2 + P3 + …. = PT
We add the pressure of each gas in a mixture. Their sum is equal to the total pressure of gas in the container.
Practice Problems A mixture of oxygen, carbon dioxide,
and nitrogen has a total pressure of 0.97 atm. What is the partial pressure of oxygen if the partial pressure of carbon dioxide is 0.70 atm and that of nitrogen is 0.12 atm?
Find the total pressure for a mixture that contains 4 gases with partial pressures of 5.00 kPa, 4.56 kPa, 3.02 kPa, and 1.20 kPa.