Kinetic Molecular Theory

February 21, 2007

Chem 102B

Volume of 1 mole of an ideal gas?• What is the molar volume of an ideal gas

at STP? (How much volume does 1 mole of gas occupy?)

nRT (1.000 mol)(0.08206 L atm/mol K)(273.15K)PV = nRT V = = P 1.000 atm

What is STP? 0 C and 1 atm T = K = 0 C + 273.15

V = 22.42 L = 22.42 L/mol ideal gas

Application of Dalton’s Partial Pressures Law.

• PTotal = P1 + P2 + P3 + . . . . .• Commonly we collect gases over water

during an experiment.• PTotal = Pgas + Pwater vapor

Kinetic Molecular Theory (KMT)

1) Gases are mostly empty space; the volume of particles is negligible.

2) Gas particles are in constant random motion.3) Gas particles neither attract nor repel each

other. 4) Pressure is due to collisions of gas particles

with container walls.5) The average kinetic energy of a gas sample is

proportional to the Kelvin Temperature.KE = 3/2 RT where R = 8.3145 J/mol . K

Attempts to explain why gases behave the way they do.

Are gases mostly empty space?

• Ratio of the volume of N2 (g) to N2 (l) is 640 : 1

• N2 molecules are 9 times farther apart in the gas.

Random Motion of Gas Particles

Boyle’s Law

1 1 2 2P V =P V

Charles’s Law

V VT T

Avogardo’s Law

n nV V

Velocity of gas molecules

• Gas molecules are constantly colliding

• Transfer of energies• Maxwell-Boltzman

distribution of velocities

• KEavg = 3/2 RT• KEavg = 1/2 mv2

Average velocity

Temperature Effects on Velocity

• Average velocity of N2 molecules at different temps.

• Peak velocity becomes greater.

• Range of velocities also increases.

Kinetic Energy

Note: KE = ½ mv2

where m = mass and v = velocity

KE = 3/2 RT but KE= ½ mv2

So 3/2 RT= KE = ½ mv2

vavg = (3RT/M)1/2

where M = molar mass of gas

Average velocity and mass

• Consider two gases at the same temperature, which has the higher average velocity?

• The lighter the gas molecule, the faster the average velocity.

• To check this, let’s calculate the average velocity of He and Ar gas at 25oC.

Kinetic Molecular Theory - butane.chem.uiuc.edubutane.chem.uiuc.edu/trichmon/chem102bsp07/... ·...

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