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Agenda Behavior of Gases Gas Laws Gas Laws Worksheet
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Closed System A closed system does not exchange matter with its surroundings but energy can come and go as it pleases.
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Kinetic Molecular Theory Empirical (based on experiments) description of gases that the gas laws are based on.
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Collisions of Gas Particles
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Kinetic Molecular Theory
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Postulate (Assumption) 1 Gases consist of tiny particles (atoms or molecules)
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Kinetic Molecular Theory Postulate (Assumption) 2 These particles are so small, compared with the distances between them, that the volume (size) of the individual particles can be assumed to be negligible (zero).
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Kinetic Molecular Theory Postulate (Assumption) 3 The particles are in constant random motion, colliding with the walls of the container. These collisions with the walls cause the pressure exerted by the gas.
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Kinetic Molecular Theory Postulate (Assumption) 4 The particles are assumed not to attract or to repel each other.
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Kinetic Molecular Theory Postulate (Assumption) 5 The average kinetic energy of the gas particles is directly proportional to the temperature of the gas
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Ideal Gases Particles in an ideal gas… have no volume. have elastic collisions. (When they collide no energy is lost) are in constant, random, straight-line motion. don’t attract or repel each other. have an avg. KE directly related to Kelvin temperature. Courtesy Christy Johannesson www.nisd.net/communicationsarts/pages/chem
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Real Gases Particles in a REAL gas… have their own volume attract each other Gas behavior is most ideal… at low pressures at high temperatures in nonpolar atoms/molecules
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Kinetic Molecular Theory 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 Courtesy Christy Johannesson www.nisd.net/communicationsarts/pages/chem
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Gas Variables Four variables to describe a gas: Pressure (P) Volume (V) Temperature (T) Amount (n)
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Ideal Gas Relationships As Pressure Increases, Temperature Increases By extension – As Pressure Decreases Temperature Decreases As Volume Increases, Temperature AND Pressure Decrease By extension – As Volume Decreases, Temperature and Pressure Increase As Amount (number of moles) Increases, Pressure and Temperature Increase By extension – As Amount Decreases, Pressure and Temperature Decrease In a Closed System…
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Gas Law Apparatus Air Valve Temperature Sensor Pressure Gauge Air Volume
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