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I. Physical Properties (p. 303 - 312)

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Ch. 10 & 11 - Gases I. Physical Properties (p. 303 - 312) The Kinetic-Molecular Theory of Matter Used to explain the properties of gases, liquids and solids in terms ... – PowerPoint PPT presentation

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Title: I. Physical Properties (p. 303 - 312)


1
I. Physical Properties(p. 303 - 312)
  • Ch. 10 11 - Gases

2
The Kinetic-Molecular Theory of Matter
  • Used to explain the properties of gases, liquids
    and solids in terms of
  • 1) Energy of particles
  • 2) Forces acting between particles.
  • Kinetic Theory is based on the idea that
    particles of matter are in constant motion and
    that this motion has consequences.

3
The Kinetic-Molecular Theory of Gases
  • Ideal Gas - Imaginary gas that conforms perfectly
    to all assumptions of the Kinetic Theory.

4
A. Kinetic Molecular Theory
  • Particles in an ideal gas
  • have no volume.
  • have elastic collisions.
  • are in constant, random, straight-line motion.
  • dont attract or repel each other.
  • have an avg. KE directly related to Kelvin
    temperature.

5
B. Real Gases
  • Particles in a REAL gas
  • have their own volume
  • attract each other, therefore collisions are not
    elastic (slowed down)
  • Avg KE still directly related to Kelvin Temp

6
Real gas
  • Gas behavior is most ideal
  • at low pressures
  • at high temperatures
  • in nonpolar atoms/molecules

7
The Kinetic Theory and the Nature of Gases
  • The Kinetic Theory accounts for the following
    physical properties of gases
  • Expansion - gases do not have a definite shape
    nor definite volume, they fill the container they
    are in.
  • Fluidity - There is very little attraction
    between gaseous particles, they flow past each
    other.
  • Low Density - Most of a gas is empty space. The
    same amount of a gas as a liquid/solid takes up
    100 more space.

8
  • Compressibility - because there is so much space
    between molecules in a gas they can be crowded
    closer together.
  • Diffusion - spontaneous mixing of 2 substances
    due to random motion.
  • A) Rate of Diffusion - depends upon
  • 1) speed of molecules
  • 2) size
  • 3) attractive forces
  • Effusion gas particles under pressure pass
    through a very small hole from one container to
    another.
  • A) Rate of Effusion - is directly
    proportional to the velocity of the particles.

9
C. Characteristics of Gases
  • Gases expand to fill any container.
  • random motion, no attraction
  • Gases are fluids (like liquids).
  • no attraction
  • Gases have very low densities.
  • no volume lots of empty space

10
C. Characteristics of Gases
  • Gases can be compressed.
  • no volume lots of empty space
  • Gases undergo diffusion effusion.
  • random motion

11
10.2 Qualitative Description of Gases
  • To describe gases accurately, you must use 4
    measureable quantities
  • 1. Temperature
  • 2. Pressure
  • 3. Volume
  • 4. Quantity or of Particles

12
Temperature Scales
  • a) Celsius - developed by Anders
    Celsius(1701-1744)
  • - 0oC freezing pt. of water
  • - 37oC body temperature
  • - 100oC boiling pt. of water
  • - 20oC normal room temperature
  • b) Fahrenheit - developed by inventor of
    Mercury thermometer - Gabriel Daniel Fahrenheit
    in 1714.
  • - 32oF freezing pt. of water
  • - 98.6oF body temperature
  • - 212o F boiling pt. of water
  • c) Kelvin - developed by William Thomson, Lord
    Kelvin.
  • - K, Kelvin is the SI unit of Temperature
  • - 0 K, Zero Kelvin - Absolute Zero
  • - 273 K freezing pt. of water
  • - 373 K boiling pt. of water

13
D. Temperature
  • Always use absolute temperature (Kelvin) when
    working with gases.

14
E. Pressure
Which shoes create the most pressure?
15
E. Pressure
  • Barometer
  • measures atmospheric pressure

16
E. Pressure
  • Manometer
  • measures contained gas pressure

17
E. Pressure
  • KEY UNITS AT SEA LEVEL
  • 101.325 kPa (kilopascal)
  • 1 atm 30 in. Hg
  • 760 mm Hg
  • 760 torr
  • 14.7 psi

18
VOLUME
  • Volume- amount of space an object takes up
  • Solid L x W x H, cm3
  • Fluid(Gas/Liquid)
  • -- Graduated Cylinder in ml
  • Quantity/ of Particles measured
  • in moles(6.022 x 1023 particles)

19
F. STP
STP
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