Chap. 7 gases

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Kinetic molecular theory of gases

Gas particles are small; move randomly & rapidly; gas particles are not attracted to each other; actual volume of molecules is small; energy is propotional to the Kelvin temperature; gas particles move in straight paths

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Gas - pressure (P)

The force exerted by gas against the walls of the container; The Atmospheric pressure is measured in units "atmosphere" (atm) millimeters of mercury (mm Hg)

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Volume (V)

Volume of gas equals the conatiner in which it is placed; measured in units of liters (L) and milliliters (mL)

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Temperature (T)

Temperature of a gas affects its kinetic energy - use Kelvin to measure temp. of a gas

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Amount of Gas (n)

Usually, the amount of gas is measured by its mass (grams)

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Pressure (equation)

Pressure (P) = Force/area

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Atmospheric pressure

1. Air particles have mass, they exert pressure - measured with a barometer

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Barometer - how does it work

Pressure exerted by gases in atmospher is equal to the downward pressure of a mercury column in a closed glass tube

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What is 1 atmosphere?

1 atm = 760 mm Hg = 760 torr

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What is a torr?

Name for Torricelli, the inventor of the barometer

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Boyle's Law

P1(V1) = P2(V2) - As pressure increases, volume decreases and vice versa

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Boyle's Law ("boy"cott law)

INVERSE relationship between Pressure and Volume

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Charles' Law

Volume of a gas change directly with a change in Kelvin temperature

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Charles' Law & "Kelva-milla"

The is a direct relationship between Pressure and "Kelva-milla" - degrees Kelvin -

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Charles Law (equation)

V1 divided by T1 = V2 divided by T2

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Avogadro's Law (gases)

Avogardro's Law for gases - the volume of a gas is directly related to the number of moles of a gas (common sense -the more gas, the more volume)

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STP - standard temperature and standard pressure

Standard pressure is 0 degrees Centigrade - 273 K; standard pressure is 1 atmosphere (760 mm Hg)

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Ideal Gas Law (has four elements)

Ideal Gas Law- expresses relationship between Pressure (P), Volume (V), temperature (T) and amount of a gas (n)

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Ideal Gas Law (equation)

P(V) divided by n(T) = R

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Ideal gas law (units of measure)

Pressure (P) - atm or mm Hg; Volume (V) - L; Amount (n) - moles; Temperature (T) Kelvin

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Partial Pressure (Dalton's Law)

When gases are combined, it is the number of gas molecules, not the kind of gas, which determine pressure

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Dalton's Law - equation

P(total) = P(one) + P(two) [just keep adding moles of gas]

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Molar volume (gas)

A volume of 22.4 L occupied by 1 mole of a gas at STP conditions of 0degres Centigrade (273 K) and 1 atm

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What is the "standard" temperature for gas under the ideal gas law?

0 degrees centigrade (273 Kelvin)

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