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Molar Volume

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The volume of a gas is related to both its temperature and its pressure ... If temperature decreases, volume of gas decreases. Example-Diver in deep ocean ... – PowerPoint PPT presentation

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Title: Molar Volume


1
Molar Volume
2
Molar Volume
  • There is a way to relate the volume of a gas to
    the amount of gas in moles.
  • The volume of a gas is related to both its
    temperature and its pressure
  • This must be considered to understand the
    relationship between volume and moles

3
Temperature and Pressure
  • Both affect the volume of gases
  • Example-Balloon in freezer
  • If temperature decreases, volume of gas decreases
  • Example-Diver in deep ocean
  • If pressure is increased, volume of gas is
    decreased

4
Standard temp and press
  • Standard conditions
  • -The average pressure of the atmosphere at sea
    level is taken as standard pressure which is
    101.3kPa
  • -The freezing point of water is defined as
    standard temperature, which is 0C or 273K
  • Together these conditions are known as standard
    temperature and pressure or STP

5
Avogadros Hypothesis
  • Used the findings of Guy-Lussac and Dalton
  • Avogadro said equal volumes of all ideal gases
    at the same temp. and press. contain the same
    number of molecules
  • Mathematically
  • naV or nkV or n1/V1n2/V2
  • Based on the law, one mole of gas occupies the
    same volume as one mole of another gas at the
    same temp and pressure
  • Molar volume of a gas us the space that is
    occupied by one mole of the gas. UnitsL/mol

Where n of moles, Vvolume, and ka constant
6
Standard Molar Volume
  • The molar volume of a gas at STP is 22.4L/mol
  • Can use this number to solve gas problems
    involving moles and volume at STP

7
Example
  • What is the volume of 3.0mol of nitrous oxide,
    NO2(g), at STP?

8
Solution
  • We know 1.00mol of gas occupies 22.4L at STP so
    this tells us that n11.0mol and V122.4L
  • The question tells us that the n2 is 3.0mol of
    NO2
  • All we have to do is use the equation (avogadros
    law)and solve for V2

9
Solution
  • n1/V1n2/V2
  • V2n2V1
  • n1
  • V2(3.0mol)(22.4L)
  • 1.0mol
  • V267L

10
Example
  • Suppose you have 44.8L of methane gas at STP
  • a) How many moles are present?
  • b) What is the mass of the gas?(g)
  • c) How many molecules of gas are present?

11
Solution
  • Using Avogadros law
  • n2n1V2
  • V1
  • 1.00mol x 44.8L
  • 22.4L
  • 2.00mol
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