The Gas Laws 1.Boyle’s Law 2.Charles’ Law 3.Gay-Lussac’s Law 4.Avogadro’s Law.

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Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 A Gas 4 Uniformly fills any container. 4 Mixes completely with any other gas 4 Exerts.

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Presentation transcript:

The Gas Laws 1.Boyle’s Law 2.Charles’ Law 3.Gay-Lussac’s Law 4.Avogadro’s Law

Boyle’s Law Boyle’s Law – at constant temperature, the volume of the gas increases as the pressure decreases. The volume of the gas decreases and the pressure increases. P 1 V 1 = P 2 V 2 V ↑ P↓ VolumeLVolumeL Pressure (kPa) If you squeeze a gas sample, you make its volume smaller.

Moveable piston ↕ Now... a container where the volume can change (syringe) Same temperature Volume is 100 mL at 25 °C Volume is 50 mL at 25 °C In which system is the pressure higher? (Which has the greater number of collisions with the walls and each other?)

Charles’ Law Charles’ Law – at a constant pressure, the volume of a gas increases as the temperature of the gas increases and the volume decreases when the temperature decreases. VolumeLVolumeL Temperature (K) V 1 V 2 T 1 T 2 = increase AKE increase the speed of the particles the walls of a flexible container expand – think of hot air balloons!

Steel cylinder (2L) contains 500 molecules of O 2 at 400 K Steel cylinder (2L) contains 500 molecules of O 2 at 800 K 1.In which system do the O 2 molecules have the highest average kinetic energy? 2.In which system will the particles collide with the container walls with the greatest force? 3.In which system is the pressure higher? B B B

Gay-Lussac’s Law Gay-Lussac’s Law – the pressure of a gas is directly proportional to its absolute temperature at a constant volume. Pressure (atm) Temperature (K) P 1 P 2 T 1 T 2 =

To remember how these work... P T V Think “Public Tele Vision”

To remember which constants go with which law... Boyle’s Law – Temperature is constant Charles’ Law – Pressure is constant Gay-Lussac’s Law – Volume is constant BLT Cheese Pizza Green Veggies

Combined Gas Law P 1 V 1 P 2 V 2 T 1 T 2 = The equation is found on Table T. Note that all temperatures must be in Kelvin!

Units used to describe gas samples: Volume Liter (L) Milliliter (mL) 1000 mL = 1L Temperature Kelvin ONLY Pressure Atmosphere (atm) Kilopascale (kPa) 1 atm = kPa 1 atm = 760 mm Hg 1 atm = 760 torr

Avogadro’s Law Avogadro’s Law – equal volumes of gases at the same temperature and pressure contain equal numbers of molecules. 1 mole of ANY gas takes up a volume of 22.4 L at STP. H2H2 O2O2 CO 2

YouTube - Chemistry Music Video 7: Rock Me Avogadro YouTube - Chemistry Music Video 7: Rock Me Avogadro

Ideal Gases Gases whose behavior can be predicted by the kinetic molecular theory are called ideal, or perfect, gases. No gases are truly ideal because no gas totally obeys all of the gas laws. An ideal gas is an imaginary gas that is perfect and does follow everything perfectly.

Ideal Gases, continued An ideal gas does not condense to a liquid at low temperatures An ideal gas does not have forces of attraction or repulsion between particles An ideal gas is composed of particles that have no volume.

Real Gas Vs. Ideal Gas A real gas is most like an ideal gas when the real gas is at a low pressure and a high temperature. The gases that act most like ideal gases are the small mass ones – hydrogen and helium.

Diffusion movement of particles from areas of high concentrations to areas of low concentration. Gases diffuse and mix with other gases very rapidly due to their rapid motion. (Think ammonia, tuna or skunk smell.) It eventually reaches equilibrium and the mixture is homogeneous. Entropy is the randomness of particles. Effusion – the passage of gas under pressure through a small opening. (Gases effuse through a hole in your tire!)

Two More Laws!! Graham’s Law – Particles of low molar mass travel faster than heavier particles. Hydrogen effuses 4 times faster than oxygen. Dalton’s Law of Partial Pressure - In a mixture of gases, each gas exerts a certain pressure as if it were alone. The pressure of each one of these gases is called the partial pressure. The total pressure of a mixture of gases is the sum of all of the partial pressures. P total = P A + P B + P C

Example: A closed cylinder contains 3L of He, 1L of H 2 and the total pressure in the system is 800 torr. What is the partial pressure of the He? P total = P A + P B + P C 3L + 1L = 4L AND 4L = 800 torr 4L = 800 torr 44 → 1L = 200 torr 1L H2 200 torr 3L He 600 torr 4L gas 800 torr

YouTube - MythBusters - Fun With Gas