The Gas Laws - PowerPoint PPT Presentation

1 / 39
About This Presentation
Title:

The Gas Laws

Description:

(Needles, High Heels, Snow shoes) Caused by the collisions of gases against a container ... low volume, high pressure. Piston up high volume, low pressure ... – PowerPoint PPT presentation

Number of Views:219
Avg rating:3.0/5.0
Slides: 40
Provided by: jfrede
Category:
Tags: gas | heels | high | laws

less

Transcript and Presenter's Notes

Title: The Gas Laws


1
The Gas Laws
  • Chapter 9

2
Kinetic Molecular Theory
  • A gas is composed of small particles (molecules)
    that are spaced widely apart.
  • Compressible
  • Low density - about a 1000 times less dense than
    a liquid
  • The molecules of a gas are in rapid, constant
    motion
  • Pressure the force of the molecules hitting the
    side of a container
  • Fill a container (like a balloon) evenly.

3
Kinetic Molecular Theory
  • All collisions are elastic
  • Molecules dont lose any energy when they
    collide.
  • Gas molecules have little/no attractive force on
    one another.
  • Too far apart
  • Mix thoroughly unlike oil and water (too far
    apart for polar/non-polar forces to matter)

4
Kinetic Molecular Theory
  • The temperature of a gas is related to the
    average kinetic energy of the molecules.
  • Kinetic energy energy in motion
  • KE ½ mv2
  • Grahams Law of Diffusion the higher the molar
    mass of a gas, the slower it moves
  • v1 m2
  • v2 m1

5
Grahams Law Example
  • At the same temperature, how much faster does an
    He atom move than an N2 molecule?
  • (Ans 2.65 times faster)

6
Grahams Law Example
  • Which is faster (and by how much) Cl2 or O2?
  • (Ans O2 is about 1.5 times faster)

7
Our Atmosphere
  • 99 N2 and O2
  • 78 N2
  • 21 O2
  • 1 CO2 and the Noble Gases

8
Pressure
  • Pressure Force
  • Area
  • (Needles, High Heels, Snow shoes)
  • Caused by the collisions of gases against a
    container
  • We live at about 1 atmosphere of pressure

9
(No Transcript)
10
Barometer
  • Torricelli (1643)
  • Height of column stayed about 760 mm (760 torr)
  • The higher the elevation, the lower the mercury
  • Weather
  • Rising pressure calm weather
  • Dropping pressure storm (fast moving air)

11
Units of Pressure
  • All of the following are equal
  • 760 mm Hg (760 torr)
  • 29.9 inches Hg (weather reporting)
  • 1 atmosphere (chemistry)
  • 101.3 kPa (kiloPascals, physics)
  • 760 mm 29.9 in 1 atmosphere 101.3 kPa

12
Converting Pressures
  • Examples
  • Express 485 torr in atmospheres.
  • Convert 2.4 atmospheres to mm Hg
  • Convert 95.0 kPa to atmospheres and mm Hg.

13
The Ideal Gas Law
  • Combination of earlier work on gases.
  • Assumes all gases follow the Kinetic Molecular
    Theory (fast moving molecules, no attraction
    between gases, etc)
  • Works very well in situations close to Earths
    pressures and temperatures
  • Does not work for extreme situations (Jupiters
    atmosphere is too cold and too dense)

14
The Ideal Gas Law
  • PV nRt
  • P pressure in atmosphere
  • V volume in Liters
  • n number of moles
  • T Temperature in Kelvin
  • R gas constant
  • R 0.0821 L-atm / mol-K

15
The Ideal Gas Law
  • Examples
  • What is the pressure of a 1.45 mol sample of a
    gas in a 20.0 L container at 25oC?
  • What volume will 5.00 grams of H2 occupy at
    10.0oC and 1 atmosphere of pressure?
  • How many grams of O2 are needed to occupy a 500.0
    mL aerosol can at 20.0oC and 0.900 atmospheres?

16
STP
  • Standard Temperature Pressure
  • Standard Temperature 0oC (273 K)
  • Standard Pressure 1 atm
  • 1 mole of a gas occupies 22.4 L at STP
  • 1 mole or 22.4 L
  • 22.4 L 1 mole

17
STP
  • Examples
  • What volume will 0.180 moles of nitrogen gas
    occupy at STP?
  • How many grams of chlorine (Cl2) gas are present
    in 50.0 L at STP?

18
Comparing Two Situations
  • Sometimes we want to know what happens when a gas
    is under different conditions
  • Example What happens to a basketball if you
    pump it indoors, then take it out on a cold day?

19
Comparing Two Situations
  • P1V1 n1RT1 P2V2 n2RT2
  • Solve both equations for R
  • R P1V1 R P2V2
  • n1T1 n2T2
  • P1V1 P2V2
  • n1T1 n2T2

20
Comparing Two Situations
  • See what you can cross out (what you are not
    told)
  • Remember to convert to Kelvin and moles if needed.

21
Boyles Law
  • Boyles Law Apparatus Demo
  • Boyles Law The pressure and volume of a gas
    are inversely related
  • Bicycle pump example
  • Piston down low volume, high pressure
  • Piston up high volume, low pressure

22
Boyles Law
  • Example
  • The volume of a cars cylinder is 475 mL at 1.05
    atm. What is the volume when the cylinder is
    compressed and the pressure is 5.65 atm?
  • P1V1 P2V2
  • n1T1 n2T2

23
Boyles Law
  • Collapses to
  • P1V1 P2V2
  • (Answer 88.3 mL)

24
Boyles Law
  • Example
  • A weather balloon has a volume of 40.0 liters on
    the surface of the earth at 1.00 atm. What will
    be the volume at 0.400 atm as it rises?
  • P1V1 P2V2
  • n1T1 n2T2

25
Charles Law
  • Charles Law The temperature and volume of a gas
    are directly related
  • HOTTER BIGGER
  • A gas increases in volume 1/273rd per degree
    celsius
  • Can be used to find absolute zero
  • Temperature must be in Kelvin

26
Charles Law
  • A basketball has a volume of 12.0 L when blown up
    at 25.00 oC. What will be the volume if it is
    taken outside on a day when it is only 5.00 oC?
  • P1V1 P2V2
  • n1T1 n2T2

27
Charles Law
  • Collapses to
  • V1 V2
  • T1 T2

28
Charles Law
  • 2. If a tire contains 30.0 L of air at 10.0 oC,
    what volume will it occupy when it is driven and
    warms up to 50.0 oC?

29
Guy-Lussacs Law
  • Gay-Lussacs Law The temperature and pressure
    of a gas are directly related.
  • Temperature must be in Kelvin
  • Gas in a spray can has a pressure of 5.00 atm at
    25.0 oC. What will be the pressure at 400.0 oC?
  • P1V1 P2V2
  • n1T1 n2T2

30
Avagadros Law
  • Avagadros Law The volume of a gas is directly
    proportional to the moles present
  • MORE BIGGER
  • A balloon has a volume of 1.00 L when 50.0 grams
    of N2 are in the balloon. What is the volume if
    an additional 25.0 grams of N2 are added?

31
Putting it all together
  • Often you change more than one thing at a time.
  • Ex In a car, volume, temperature, and pressure
    may change.
  • 1. The volume of 0.0400 mol of a gas is 500.0 mL
    at 1.00 atm and 20.0 oC. What is the volume at
    2.00 atm and 30.0oC?

32
Gases and Reaction Stoichiometry
  • What mass of Al is needed to produce 50.0 L of H2
    at STP?
  • 2Al(s) 6HCl(aq) ? 2AlCl3(aq) 3H2(g)
  • (ANS 40.2 g Al)

33
Gases and Reaction Stoichiometry
  • What volume of NO gas measured at 0.724 atm and
    25oC will be produced from the reaction of 19.5 g
    of O2?
  • 4NH3(g) 5O2(g) ? 4NO(g) 6H2O(l)
  • (Ans 16.4 L)

34
Gases and Reaction Stoichiometry
  • Car safety bags are inflated through the
    decomposition of NaN3. How many grams of NaN3
    are needed to produce 36.0 L of N2 at 1.15 atm
    and 26.0oC?
  • 2NaN3(s) ? 2Na(s) 3N2(g)
  • (Ans 72 g)

35
Gases and Reaction Stoichiometry
  • 4. How many liters of H2 and N2 at 1.00 atm and
    15.0oC are needed to produce 150.0 grams of NH3?
  • N2(g) 3H2(g) ? 2NH3(g)

36
Daltons Law of Partial Pressures
  • John Dalton Daltons Atomic Theory
  • Daltons Law the total pressure of a gas is
    equal to the sum of the partial pressures
  • Ptot PA PB PC PD ..
  • Patm PN2 PO2 Prest
  • 1 atm 0.78atm 0.21atm 0.01atm

37
Daltons Law of Partial Pressures
  • 1. Three gases are mixed in a 5.00 L container.
    In the container, there are 255 torr of Ar, 228
    torr of N2, and 752 torr of H2. What is the
    total pressure?

38
Daltons Law of Partial Pressures
  • On a humid day, the partial pressure of water in
    the atmosphere is 18 torr.
  • If the total pressure is 766 torr, what are the
    pressures of all of the other gases?
  • If the atmosphere is 78 N2 and 21 O2, what are
    their pressures on this humid day?

39
Daltons Law of Partial Pressures
  • 3. What is the total pressure (in atm) exerted
    by a mixture of 12.0 g of N2 and 12.0 g of O2 in
    a 2.50 L container at 25.0oC?
Write a Comment
User Comments (0)
About PowerShow.com