Behavior of Gases

Behavior of Gases

What is suction?

What is suction? • There is no such thing as suction, it is simply a difference in air pressure.

What Do You Already Know? True or False: • Kinetic energy is energy in motion.______ • Potential energy is stored energy. ______ • Gas particles are tightly packed. ______ • Gas molecules expand uniformly to occupy a container. ______ • Gas molecules have strong intermolecular forces. ______ • Gas molecules have very little kinetic energy. ______

Properties of Gases • Shape? Indefinite Shape (take the shape of a container) • Volume? Indefinite volume • Energy? Molecules move at high speeds = high kinetic energy • Particle Diagram:

Properties of Gases • Compressibility: • The ability of the volume of a substance to be decreased by adding pressure • Why can gases be easily compressed? • Because there is mostly empty space between the molecules.

Importance of Gases During an accident, a sudden stop in motion triggers this decomposition reaction: 2NaN3 2Na + 2N2 (g) N2 gas fills the airbag and saves your life!!!!

Gas Pressure • Gas pressure: • The result of billions of collisions of gas molecules with an object • Atmospheric Pressure: • The result of billions of collisions of AIR molecules with an object • How is atmospheric pressure measured? • By using a device called a barometer

Barometer • Why do we use mercury in a barometer? • Mercury has a high density. It does not respond to pressure as much as liquid water would. • What does the height of the column depend on? • The amount of pressure pushing down on the mercury determines how high the mercury will rise in the column.

Atmospheric Pressure • Does elevation have an effect on atmospheric pressure? YES!!! • As elevation increases, atmospheric pressure decreases (baseballs fly further because there are less collisions with air molecules to slow them down) • As elevation decreases, atmospheric pressure increases, there are more collisions with air molecules.

STP • Standard Temperature and Pressure: TABLE A!!! • Temperature = 273 K or 0° C • Pressure = 101.3 kPa (kilopascals) OR 1 atm (atmosphere)

Converting from atm to kPa • 1 atm = 101.3 kPa • How many atmospheres would be present in 253.25 kPa of pressure? 101.3 kPa 253.25 kPa = X = 2.5 atm 1 atm X atm

Conversion Practice • Convert the following to atmospheres: • 658.45 kPa = ___________ atm • 253.25 kPa = ___________ atm • 1013 kPa = ___________ atm • 25.325 kPa= ___________ atm Convert the following to kilopascals: • .75 atm = ______________ kPa • 4 atm = ______________ kPa • 2 atm = ______________ kPa

Evaporation • During evaporation: • Particles with the highest KE can overcome IMFs and escape the liquid into the vapor phase • During condensation: • Particles that lose enough KE will fall back into the liquid phase http://www.chm.davidson.edu/vce/kineticmoleculartheory/Maxwell.html

What is Vapor Pressure? • Vapor pressure is the pressure exerted by a vapor in a closed container. • How is pressure exerted by the vapor? • By billions of particles colliding with the walls of the container Vapor Pressure

Vapor Pressure Equilibrium http://www.youtube.com/watch?v=re9r0kzQp_M&feature=related Liquid begins to boil, particles are evaporating An equilibrium is established when the rate of evaporation = the rate of condensation

Question • What factors effect the rate of evaporation? • Temperature • IMFs (Intermolecular forces) • Surface area

Rate of Evaporation • Which substance will evaporate faster? • Hand sanitizer (alcohol) • What IMFs hold H2O molecules together? • Hydrogen bonding • What IMFs hold alcohol molecules together? • Dipole-dipole • Which IMF is stronger? • Hydrogen bonding

IMFs and Vapor Pressure What is the relationship between IMFs and vapor pressure? • As IMFs get stronger, there are less particles evaporating, therefore there are less collisions with the container walls, vapor pressure decreases. • As IMFs get weaker, there are more collisions with the container walls, vapor pressure increases. • http://www.chm.davidson.edu/ronutt/che115/Phase/Phase.htm

Vapor Pressure 100 mL H2O @ 50°C 100 mL Ethanol @ 50°C • Will they exert the same pressure? Why or why not? • The flask with ethanol will exert a higher vapor pressure because it has weaker • IMFs, more particles will evaporate, causing more collisions with the container walls.

Vapor Pressure and Temperature • As the temperature of a liquid increases, what happens to kinetic energy? • Kinetic Energy increases • How does this affect the number of molecules that can evaporate? • More molecules will evaporate as temperature and KE increase. • What does this do to the vapor pressure? • Since more molecules are in the vapor phase, there are more collisions with the container walls, vapor pressure increases. http://www.chm.davidson.edu/ronutt/che115/Phase/Phase.htm

Vapor Pressure 100 mL H2O @ 50°C 100 mL H2O @ 95°C Will they exert the same pressure? Why or why not? The flask that is at 95°C will exert a higher vapor pressure because at a higher temperature, more particles are evaporating and colliding with the walls of the container.

Questions • How does a gas exert pressure on an object? • What is “suction”? • Describe the relationship between elevation and atmospheric pressure. • What units do we use to measure pressure? • Explain, in terms of KE, the process of evaporation • Describe the meaning of vapor pressure equilibrium. • Explain the relationship between vapor pressure and temperature? • Explain the relationship between vapor pressure and IMFs.

Behavior of Gases