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Gas Laws

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How about smelled a hamburger when you drove by McDonalds? ... Some gases we can smell. Hydrogen Sulfide smells like rotten eggs. ... – PowerPoint PPT presentation

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Title: Gas Laws


1
Gas Laws
2
Molecules In The Air
  • How do we know there are molecules in the air?
  • Has anyone ever had wind burn?
  • How about smelled a hamburger when you drove by
    McDonalds?
  • These examples demonstrate that air is made up of
    constantly moving molecules.

3
Kinetic Molecular Theory
  • Kinetic energy is perfectly maintained in
    elastic molecular collisions.
  • Molecules are in constant Motion.
  • Vibrational motion.
  • Translational motion.
  • Tiny particles called molecules make up all
    matter.

4
Kinetic Molecular Theory
  • Describes only Ideal Gases
  • Ideal gases follow the gas laws in all conditions
    of pressure and temperature.
  • Ideal gases assume particles of gas have no
    volume or intermolecular attraction.
  • Ideal gases have perfectly elastic molecular
    collisions.

5
In REALITY!
  • Real gases have volume.
  • Real gases have some intermolecular attraction.
  • Real gases can be liquefied and solidified by
    cooling and applying pressure.
  • In reality, experimentation shows us that real
    gases do not follow Ideal Behavior

6
Gases Are All Around Us!
  • Many gases are invisible, but some we can see.
  • Iodine Vapor is Pink.
  • Chlorine Gas is Yellow-Green.
  • Smoke, clouds, and fog are NOT gases!!

7
Gases Are All Around Us!
  • Some gases we can smell.
  • Hydrogen Sulfide smells like rotten eggs.
  • In natural gas, a smell has been added for our
    protection.
  • Other gases we cant smell at all.

8
Gases Are All Around Us!
  • Gases have mass.
  • Balloons that are filled with air weigh more than
    those that are un-filled.
  • When air moves it can do work. For example
    tornadoes or windmills.

9
Gases Are All Around Us!
  • Gases occupy space, or have volume.
  • Examples
  • Inflated Balloon
  • Our Lungs
  • Scuba Tanks

10
Gas Behaviors
  • Compressibility
  • The volume of a gas can be decreased by
    increasing the pressure.
  • Permeability
  • The mixing of molecules in a container.
  • Diffusion
  • The ability to spread from a high concentration
    to a lower concentration.
  • Expansibility
  • The ability of a gas to expand and fill a
    container of any size.

11
Under Pressure
  • What causes pressure?
  • Pressure is caused by the collision of gas
    molecules.
  • The molecules can collide with each other or with
    the walls of their container.

12
Atmospheric Pressure
  • Air exerts pressure on earth.
  • Gravity holds air molecules in the earths
    atmosphere.
  • Atmospheric Pressure occurs when those air
    molecules collide with each other or other
    objects.
  • Atmospheric pressure decreases as you move to a
    higher elevation.

13
Gas Laws
  • There are several different gas law equations.
  • Variables
  • V
  • P
  • T
  • n
  • R
  • d
  • ?

14
Variables
  • V volume in liters.
  • T temp in Kelvins.
  • P pressure in atm, mmHg, or kPa.
  • n number of moles of gas.
  • R the universal gas constant.
  • d gas density in g/L.
  • ? molar mass of a gas in g/mol.

15
Units of Pressure
  • Pressure is defined as a force over a specific
    area.
  • PF/A
  • English system
  • lbs/in2 PSI
  • Metric system
  • N/M2Pascal

16
Boyles Law
  • Robert Boyle (1627-1691)
  • At a constant temperature, volume and pressure of
    a gas are inversely proportional.

17
Boyles Law
  • As pressure increases, volume decreases, and vice
    versa.
  • V1P1V2P2
  • V œ 1/P
  • Remember the volume of a gas can NOT be squeezed
    down to zero!

18
Charless Law
  • Jacques Charles (1746-1823)
  • At constant pressure, the volume of a gas and
    temperature are directly proportional.

19
Charless Law
  • As temperature increases, volume increase, and
    vice versa.
  • V1/T1V2/T2
  • V œ T
  • Gases expand as they get warm , and contract as
    they cool.

20
Gay-Lussacs Law
  • Joseph Gay-Lussac (1778-1850)
  • At constant volume, gas temperature and pressure
    are directly proportional.

21
Gay-Lussacs Law
  • As temperature increases, pressure increases, and
    vice versa.
  • P1/T1P2/T2
  • T œ P
  • This is why aerosol cans say Do not incinerate!

22
Combined Gas
  • To simplify life, Boyles Law, Charless Law and
    Gay-Lussacs Law have been put together into one
    mathematical expression.
  • Combined Gas Law
  • V1P1 V2 P2
  • T1 T2
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