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Gay-Lussac

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Gay-Lussac s Law: P and T the pressure exerted by a gas is directly related to the Kelvin temperature. V and n are constant. P1 = P2 T1 T2 – PowerPoint PPT presentation

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Title: Gay-Lussac


1
Gay-Lussacs Law P and T
  • the pressure exerted by a gas is directly related
    to the Kelvin temperature.
  • V and n are constant.
  • P1 P2
  • T1 T2

2
Calculation with Gay-Lussacs Law
  • A gas has a pressure of 2.0 atm at 18C. What
  • is the new pressure when the temperature is
  • 62C? (V and n constant)
  • 1. Set up a data table
  • Conditions 1 Conditions 2
  • P1 2.0 atm P2
  • T1 18C 273 T2 62C 273
  • 291 K 335 K

?
3
Calculation with Gay-Lussacs Law (continued)
  • 2. Solve Gay-Lussacs Law for P2
  • P1 P2
  • T1 T2
  • P2 P1 x T2
  • T1
  • P2 2.0 atm x 335 K 2.3 atm
  • 291 K
  • Temperature ratio
  • increases pressure

4
Try it
  • A gas has a pressure of 645 torr at 128C. What
    is the
  • temperature in Celsius if the pressure increases
    to
  • 1.50 atm (n and V remain constant)?
  • 1. Set up a data table
  • Conditions 1 Conditions 2
  • P1 645 torr P2 1.50 atm x 760 torr
    1140 torr
  • 1 atm
  • T1 128C 273 T2 ?K ? K
    273 ?C
  • 401 K

5
Solution
  • 2. Solve Gay-Lussacs Law for T2
  • P1 P2
  • T1 T2
  • T2 T1 x P2
  • P1
  • T2 401 K x 1140 torr 709 K - 273
    436C
  • 645 torr
    Pressure ratio
  • increases temperature

6
Avogadro's Law Volume and Moles
  • the volume of a gas is directly related to the
    number of moles (n) of gas.
  • T and P are constant.
  • V1 V2
  • n1 n2

7
Learning Check
  • If 0.75 mole helium gas occupies a volume of 1.5
    L, what volume will 1.2 moles helium occupy at
    the same temperature and pressure?

8
Solution
  • STEP 1 Conditions 1 Conditions 2
  • V1 1.5 L V2 ???
  • n1 0.75 mole He n2 1.2 moles He
  • STEP 2 Solve for unknown V2
  • V2 V1 x n2
  • n1
  • STEP 3 Substitute values and solve for V2.
  • V2 1.5 L x 1.2 moles He 2.4 L
  • 0.75 mole He

9
STP and Molar Volume
STP standard temperature (273 K) and pressure
(1 atm)
At STP 1 mol of a gas (any gas) has a volume of
22.4 L 22.4 L 1 mole
molar volume
Can be used as a conversion factor a) What is
the volume of 2.50 moles of N2 at STP? b) What
is the volume in liters of 6.40 g of O2 at STP?
10
Partial Pressure Daltons Law
  • Many gases are mixtures of gases, e.g. air.
  • The partial pressure of a gas
  • is the pressure of each gas in a mixture.
  • is the pressure that gas would exert if it were
    by itself in the container.

11
Daltons Law of Partial Pressures
  • Daltons Law of Partial Pressures indicates that
  • pressure depends on the total number of gas
    particles, not on the types of particles.
  • the total pressure exerted by gases in a mixture
    is the sum of the partial pressures of those
    gases.
  • PT P1 P2 P3 .....
  • So if total pressure (PT) is known and all but
    one partial pressure..can determine partial
    pressure of that one.

12
Learning Check
  • A scuba tank contains O2 with a pressure of
    0.450 atm and He at 855 mm Hg. What is the
    total pressure in mm Hg in the tank?

13
Solution
  • 1. Convert the pressure in atm to mm Hg
  • 0.450 atm x 760 mm Hg 342 mm Hg P(O2)
    1 atm
  • 2. Calculate the sum of the partial pressures.
  • Ptotal P(O2) P(He)
  • Ptotal 342 mm Hg 855 mm Hg
  • 1197 mm Hg

14
Learning Check
  • For a deep dive, a scuba diver uses a mixture of
    helium and oxygen with a total pressure of 8.00
    atm. If the oxygen has a partial pressure of
    1280 mm Hg, what is the partial pressure of the
    helium?

PTotal 8.00 atm x 760 mm Hg 6080 mm
Hg 1 atm PTotal PO PHe
2 PHe
PTotal - PO2 PHe 6080 mm Hg -
1280 mm Hg 4800 mm Hg
15
Gases We Breathe
  • The air we breathe
  • is a gas mixture.
  • contains mostly N2 and O2 and small amounts of
    other gases.

16
Learning Check
  • A.If the atmospheric pressure today is 745 mm Hg,
    what is the partial pressure (mm Hg) of O2 in the
    air?
  • 1) 35.6 2) 156 3) 760
  • B. At an atmospheric pressure of 714, what is the
    partial pressure (mm Hg) N2 in the air?
  • 1) 557 2) 9.14 3) 0.109

Hint air is 21 oxygen
17
Blood Gases
Lungs
18
Blood Gases
  • In the lungs/blood/body
  • O2 flows (combined with hemoglobin) into the
    tissues because the partial pressure of O2 is
    higher in arterial blood, and lower in the
    tissues.
  • CO2 flows out of the tissues because the partial
    pressure of CO2 is higher in the tissues, and
    lower in the blood.
  • Partial Pressures (mmHg) in Blood and Tissue
  • Oxygenated Deoxygenated
  • (arterial) (venous)
  • Gas Blood Blood Tissues
  • O2 100 40
    30 or less
  • CO2 40
    46 50 or greater
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