The Nature of Gases Chemistry K. Culbertson
Gases Occupy Space All matter, including gases, have mass and occupy space Paper demo Balloon in a bottle demo
Gases Occupy Space Paper demo The air trapped in the container occupied volume and prevented water from entering Balloon in a Bottle The air/gas in the bottle is compressed. The compressed air exerts more pressure on the balloon than even the largest student can blow into it.
Kinetic Theory Tiny particles in all forms of matter are in constant motion
Kinetic Theory Particles in motion exert forces when they collide with other bodies Gas pressure is the result of simultaneous collisions of tons of gas particles with an object
Effective collision Ineffective collision
Kinetic Theory Balloon Demonstration Explain the process of blowing up the balloon in terms of gas particles Explain why the balloon blows up using the kinetic theory
Kinetic Theory Balloon Demonstration: Gas (Carbon Dioxide) from the lungs is blown into the balloon You are increasing the number of gas particles in the balloon The gas particles are in constant motion and exert a force or pressure on the inside wall of the balloon causing it to expand
Atmospheric Pressure Air exerts pressure on Earth because gravity holds air molecules in Earth’s atmosphere Atmospheric pressure refers to the collisions of air molecules with objects
Atmospheric Pressure The air around you exerts pressure on your body all the time. Can you feel it?
Atmospheric Pressure If you have the same pressure both inside and outside (atmospheric pressure) of an object then the forces created by those objects are equal The object will not be crushed or expand
Mauna Kea
Atmospheric Pressure The pressure inside the balloon must have been _______ the pressure on the outside of the balloon (atmospheric pressure) for the balloon to expand.
The Collapsing Can: Procedure: Fill a can with 10-12mL of water Fill a pan with cold water Heat the can over a Bunsen burner until water is boiling and steam is visible Invert the can in the cold water making sure that the opening is completely submersed
The Collapsing Can: What happened?
The Collapsing Can: Demonstrates: The effect of atmospheric pressure (pressure of the gases in the air) on an object The effect of temperature on a gas
Effect of Increasing Temperature on Gases Heating the water in the can Increasing the temperature of the liquid water caused the liquid to become water vapor Increasing the temperature speeds up the particles Increasing the speed means more collisions against the object Increases the pressure inside the object
Effect of Increasing Temperature on Gases When you increase the temperature you ___________ the pressure Why didn’t the can expand because of increased pressure?
Effect of Decreasing Temperature on Gases What was the effect of putting the can in cold water? Seals the top of the can Decreasing the temperature decreases the speed of the gas particles Gas particles condense Causes a pressure difference between the atmosphere and inside the can
Standard Temperature 0ºC or 273K Celsius to Kelvin ºC = Kelvin Kelvin to Celsius Kelvin = ºC
Standard Pressure kPa (kilopascals) or 1atm Convert atm to kPa 1 atm kPa x G atm kPa 1 atm x G kPa
Variables used to describe a gas 1.Pressure (kPa) 2.Volume (L) 3.Temperature (K) 4.n (number of moles) ** Our goal is to be able to predict the behavior of a gas given specific conditions