Presentation is loading. Please wait.

Presentation is loading. Please wait.

Section 4.3 Pg. 169-171.  This often involves integrating two or more concepts.  I.e. Boyle’s and Charles’ Laws were combined to create the Combined.

Published byGerald Jordan Modified over 9 years ago

Similar presentations

Presentation on theme: "Section 4.3 Pg. 169-171.  This often involves integrating two or more concepts.  I.e. Boyle’s and Charles’ Laws were combined to create the Combined."— Presentation transcript:

1 Section 4.3 Pg. 169-171

2  This often involves integrating two or more concepts.  I.e. Boyle’s and Charles’ Laws were combined to create the Combined Gas Law  Similarly, Avogadro’s Theory and the Mole concept can also be combined:  Avogadro: “Equal volumes of any gases at the same temperature and pressure contain equal numbers of entities”  Therefore, for all gases at a specific temperature and pressure, there must be a certain volume, the molar volume, that contains one mole of entities  Molar Volume: the volume that one mole of a gas occupies at a specified temperature and pressure

3  Molar volume is the same for all gases at the same temperature and pressure (remember, all gases have the same physical properties)  At STP, molar volume = 22.4 L/mol (101.325 kPa and 0°C)  At SATP, molar volume = 24.8 L/mol (100 kPa and 25°C)  This can be used as a conversion factor just like molar mass! At STP, one mole of gas has a volume of 22.4 L, which is approximately the volume of 11 “empty” 2 L pop bottles. STP = 22.4L/mol SATP = 24.8 L/mol

4  Chemists created the concept of molar volume to convert between volume and chemical amount Molar Volume as a Conversion Factor V n litres mol x 1 mol x L x x L 1 mol Remember the conversion factor will be different at STP and SATP!

5  Why are we dealing with molar volume instead of molar mass???  It’s a lot easier to measure the volume of a gas than trying to measure its mass.  You would have to trap the gas in a container and measure its mass on a balance and them make corrections for the buoyant force of the surrounding air... not easy

6 1. Calculate the volume occupied by 0.024 mol of carbon dioxide at SATP. V CO 2 : 0.024 mol x ( 24.8 L) = 0.60 L 1 mol 2. What chemical amount of oxygen is available for a combustion reaction in a volume of 5.6 L at STP? STP = 22.4L/mol SATP = 24.8 L/mol n O 2 : 5.6 L x ( 1 mol ) = 0.25 mol 22.4 L

7 3. What volume does 3.50 g of helium gas (He) occupy at SATP? n He : 3.50 g x ( 1 mol ) = 0.875 mol 4.00 g V He : 0.875 mol x ( 24.8 L) = 21.7 L 1 mol  Once these calculations are clearly understood, they can be combined into a single calculation using unit analysis. All units except the final unit will cancel. STP = 22.4L/mol SATP = 24.8 L/mol V He : 3.50 g x ( 1 mol ) x ( 24.8 L) = 21.7 L 4.00 g 1 mol

8 4. A propane tank for a barbecue contains liquefied propane. IF the tank mass drops by 9.1 kg after a month’s use, what volume of propane gas at SATP was used for cooking? Molar mass (M): C 3 H 8(g) = 44.11 g/mol V C 3 H 8(g) : 9.1 kg x (1 mol ) x ( 24.8 L) = 5.1 kL 44.11g 1 mol  What if I wanted your answer in litres? STP = 22.4L/mol SATP = 24.8 L/mol 5.1 kL x 1000L = 5100 L= 5.1 x 10 3 L 1 kL

9 STP = 22.4L/mol SATP = 24.8 L/mol Molar volume: the volume that one mole of a gas occupies at a specified temperature and pressure Homework: pg. 171 #5 - 12

Download ppt "Section 4.3 Pg. 169-171.  This often involves integrating two or more concepts.  I.e. Boyle’s and Charles’ Laws were combined to create the Combined."

Similar presentations

Mole and gas volume The molar volume of a gas is its volume per mole, litre mol-1. It is the same for all gases at the same temperature and pressure. The.

Mole and gas volume The molar volume of a gas is its volume per mole, litre mol-1. It is the same for all gases at the same temperature and pressure. The.
Moles, volume and density

Moles, volume and density
HIGHER GRADE CHEMISTRY CALCULATIONS Molar Volume. The molar volume is the volume occupied by one mole of a gas. Worked example 1. In an experiment the.

HIGHER GRADE CHEMISTRY CALCULATIONS Molar Volume. The molar volume is the volume occupied by one mole of a gas. Worked example 1. In an experiment the.
Unit 4 Section A.17-18 In which you will learn about: Molar volume Avogadro’s law Stoichiometry with gases.

Unit 4 Section A In which you will learn about: Molar volume Avogadro’s law Stoichiometry with gases.
Gas Volumes and Ideal Gas Law. Up to this point, the gas laws have kept the amount of gas (moles) the same.

Gas Volumes and Ideal Gas Law. Up to this point, the gas laws have kept the amount of gas (moles) the same.
COMBINED GAS LAW AND AVOGADRO’S PRINCIPLE. COMBINED GAS LAW P1V1P2V2T1T2P1V1P2V2T1T2 =

COMBINED GAS LAW AND AVOGADRO’S PRINCIPLE. COMBINED GAS LAW P1V1P2V2T1T2P1V1P2V2T1T2 =
TOPICS 1.Intermolecular Forces 2.Properties of Gases 3.Pressure 4.Gas Laws – Boyle, Charles, Lussac 5.Ideal Gas Law 6.Gas Stoichiometry 7.Partial Pressure.

TOPICS 1.Intermolecular Forces 2.Properties of Gases 3.Pressure 4.Gas Laws – Boyle, Charles, Lussac 5.Ideal Gas Law 6.Gas Stoichiometry 7.Partial Pressure.
Avogadro’s Principal & Molar Volume LG: I can use Avogadro’s Principal to equate volume and number of entities in a gas.

Avogadro’s Principal & Molar Volume LG: I can use Avogadro’s Principal to equate volume and number of entities in a gas.
Mole  measurement of the number of particles in a sample  1 mol He (g) = 6.02 x 10 23 atoms  1 mol CO 2(g) = 6.02 x 10 23 molecules.

Mole  measurement of the number of particles in a sample  1 mol He (g) = 6.02 x atoms  1 mol CO 2(g) = 6.02 x molecules.
Molecular Composition of Gases Volume-Mass Relationships of Gases.

Molecular Composition of Gases Volume-Mass Relationships of Gases.
Gas Stoichiometry Section 7.3 pg.294-298. Gas Stoichiometry Many chemical reactions involve gases as a reactant or a product Gas Stoichiometry – the procedure.

Gas Stoichiometry Section 7.3 pg Gas Stoichiometry Many chemical reactions involve gases as a reactant or a product Gas Stoichiometry – the procedure.
Chemical Quantities.  Calculate the mass of compounds.  Calculate the molar volumes of gases.  Solve problems requiring conversions between mass, and.

Chemical Quantities.  Calculate the mass of compounds.  Calculate the molar volumes of gases.  Solve problems requiring conversions between mass, and.
Mole-Mass and Mole-Volume Relationships

Mole-Mass and Mole-Volume Relationships
Mole-Mass and Mole-Volume Relationships

Mole-Mass and Mole-Volume Relationships
General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc.1 Chapter 7 Gases 7.7 Volume and Moles (Avogadro’s Law)

General, Organic, and Biological Chemistry Copyright © 2010 Pearson Education, Inc.1 Chapter 7 Gases 7.7 Volume and Moles (Avogadro’s Law)
Chapter 11 Gases.

Chapter 11 Gases.
Gases Chapter 10/11 Modern Chemistry

Gases Chapter 10/11 Modern Chemistry
Gases http://www.mhhe.com/physsci/chemistry/animations/chang_7e_esp/gam2s2_6.swf.

Gases
Avogadro’s Principle Gas particles = big, little, heavy, light Doesn’t matter = so far apart Therefore, a 1000 krypton (big) atoms occupy the same space.

Avogadro’s Principle Gas particles = big, little, heavy, light Doesn’t matter = so far apart Therefore, a 1000 krypton (big) atoms occupy the same space.
What happens when we change the quantity of gas

What happens when we change the quantity of gas

Similar presentations

Ads by Google