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CHAP 10 CHEM

Across
THIS PHASE OF MATTER HAS THE ABILITY TO FLOW AND TAKE THE SHAPE OF ITS CONTAINER
States that "When the pressure of a dry gas is held constant, the temperature in degrees Kelvin and the volume are directly proportional to each other."
States that "Pressure x volumes of gas 1, divided by the temperature in Kelvins of gas 1 is equal to the Pressure x volumes of gas 2, divided by the temperature in Kelvins of gas 2."
The normal sea-level atmospheric air pressure at at 45 degrees latitude. (1 ATM)
When one goes up, the other goes down
When gas particles pas through a small opening into an evacuated space
UNDER EQUIVALENT CONDITIONS, THE VOLUMES OF REACTING GASES AND THEIR GASEOUS PRODUCTS ARE EXPRESSED IN RATIOS OF SMALL WHOLE NUMBERS
When a gas enters a space and individual particles spread out uniformly throughout that space
The ability of gases to change their volume to fit their container
The SI unit of pressure whereby 1 Newton of pressure acts on an area of one square meter
PV = nRT
States that "Pressure is directly proportional to temperature in degrees Kelvin for a fixed mass of gas, if the volume remains constant."
The average force exerted per unit of area when fluid molecules collide against a boundary = force per unit area
Down
A gas whose behavior is perfectly predicted by the kinetic-molecular theory
THE VOLUME F A GAS, MAINTAINED AT A CONSTANT TEMPERATURE AND PRESSURE, is directly proportional to the number of moles of the gas
Extra pressure exerted by vaporized water mixed with gas collected "over water" and included in the total pressure of the gas.
R = PV divided by nT
When one goes up, so does the other
...is inversely proportional to the square root of its molar mass
States that "the total pressure of a mixture of gases, equals the sum of the partial pressures of each component
Molar mass divided by molar volume
Standard temperature and pressure