Presentation is loading. Please wait.

Presentation is loading. Please wait.

Topic 1 – Stoichiometric Relations. Topic 1 – Stoichiometric Relationships 1.3 – Reacting masses and volumes SWBAT: Solve problems and analyze graphs.

Published byAdelia Wade Modified over 8 years ago

Similar presentations

Presentation on theme: "Topic 1 – Stoichiometric Relations. Topic 1 – Stoichiometric Relationships 1.3 – Reacting masses and volumes SWBAT: Solve problems and analyze graphs."— Presentation transcript:

1 Topic 1 – Stoichiometric Relations

2 Topic 1 – Stoichiometric Relationships 1.3 – Reacting masses and volumes SWBAT: Solve problems and analyze graphs involving the relationship between temperature, volume, and pressure for a fixed mass of gas Solve problems using the Ideal Gas law Explain deviation of real gas behavior from at low temp and high pressure Obtain experimental values to calculate the molar mass of a gas from the ideal gas law Solve problems involving concentration, amount of solute, and volume of solution Use a titration to calculate the concentration of a solution by reference to a standard solution

3 Gas Laws Boyle’s Law (inverse relationship) P 1 V 1 =P 2 V 2 Charles’ Law (direct relationship) V 1 /T 1 = V 2 /T 2 Combined Gas Law P 1 V 1 /T 1 = P 2 V 2 /T 2 Ideal Gas Law PV=nRT when pressure is in atm R=0.0821 when pressure is in kPa R=8.314

4

5

6

7

8

9

10 Real gases show deviation from ideal behavior What 2 conclusions can you come up with regarding how the gas behaves most like an ideal gas? (ie under what conditions)

11 Real gases show deviation from ideal behavior 1)The gas behaves most like an ideal gas at low pressure and shows its greatest deviation at high pressure 2)The gas behaves most like an ideal gas at high temperature and shows the greatest deviation at low temperature

12 Real gases show deviation from ideal behavior To interpret these findings we will question the validity of 2 assumptions made in describing an ideal gas in the kinetic molecular theory: 1)The volume of the gas particles are negligible 2)There are no attractive forces between the particles

13 Real gases show deviation from ideal behavior 1)The volume of the gas particles are negligible At low pressures the volume occupied by the particles of a typical gas is only ~0.05% of the total volume, so its reasonable to describe this as negligible With increasing pressure as the space b/w the particles is reduced, this percentage increases up to ~20% - certainly not negligible

14 Real gases show deviation from ideal behavior 2)There are no attractive forces between the particles When a gas is at low pressure the particles are so far apart they aren’t attracted to each other As pressure increases & the particles move closer together the attractive forces b/w them strengthen

15

16 Concentration Molarity=mol solute / L solution

17 Name that glassware!

18 Concentration Molarity=mol solute / L solution

19 Concentration parts per million (ppm)= mass of component/total mass of solution * 10 6

20 Dilutions of solutions reduce the concentration As a solution is diluted the # of moles of solute remains the same, but they become spread through a larger volume, decreasing the concentration M 1 V 1 =M 2 V 2 where M=molarity and V=volume CoCl 2

21 Dilutions of solutions reduce the concentration

22

Download ppt "Topic 1 – Stoichiometric Relations. Topic 1 – Stoichiometric Relationships 1.3 – Reacting masses and volumes SWBAT: Solve problems and analyze graphs."

Similar presentations

Page 3 Kinetic Molecular Theory Is a theory that demonstrates how gases should behave. It is also called Ideal Gas Laws.

Page 3 Kinetic Molecular Theory Is a theory that demonstrates how gases should behave. It is also called Ideal Gas Laws.
Gas Laws. CA Standards Students know how to apply the gas laws to relations between the pressure, temperature, and volume of any amount of an ideal gas.

Gas Laws. CA Standards Students know how to apply the gas laws to relations between the pressure, temperature, and volume of any amount of an ideal gas.
PV = nRT Ideal Gas Law P = pressure in atm V = volume in liters

PV = nRT Ideal Gas Law P = pressure in atm V = volume in liters
MythBusters: Fun With Gas : Video : Discovery Channel

MythBusters: Fun With Gas : Video : Discovery Channel
CHEMISTRY Matter and Change

CHEMISTRY Matter and Change
Ch. 10 --Gases Properties: Gases are highly compressible and expand to occupy the full volume of their containers. Gases always form homogeneous mixtures.

Ch Gases Properties: Gases are highly compressible and expand to occupy the full volume of their containers. Gases always form homogeneous mixtures.
Charles, Boyle, Gay-Lussac, Combined and The Ideal Gas Law

Charles, Boyle, Gay-Lussac, Combined and The Ideal Gas Law
Unit 9: Gases Ideal Gas Law. After today you will be able to… Explain what an ideal gas is Calculate an unknown pressure, temperature, volume, or amount.

Unit 9: Gases Ideal Gas Law. After today you will be able to… Explain what an ideal gas is Calculate an unknown pressure, temperature, volume, or amount.
 Slides 3-8 Slides 3-8 ◦ Part One: Kinetic Molecular Theory and Introduction to Gas Laws  Slides 10-16 Slides 10-16 ◦ Part Two: Boyle’s Law, Charles’

 Slides 3-8 Slides 3-8 ◦ Part One: Kinetic Molecular Theory and Introduction to Gas Laws  Slides Slides ◦ Part Two: Boyle’s Law, Charles’
Gas Laws Quantitative Chemistry. Measurement of Molar Quantities 1 mole of a substance contains 6.02 x 10 23 particles.

Gas Laws Quantitative Chemistry. Measurement of Molar Quantities 1 mole of a substance contains 6.02 x particles.
Title: Lesson 11 Ideal and Real Gas Behaviour

Title: Lesson 11 Ideal and Real Gas Behaviour
Gases Need to know……. A gas is a substance that has no well-defined boundaries but diffuses rapidly to fill any container in which it is placed.

Gases Need to know……. A gas is a substance that has no well-defined boundaries but diffuses rapidly to fill any container in which it is placed.
Avogadro’s Law.

Avogadro’s Law.
Gases Chapter 14. 14.1 The Gas Laws: Kinetic Molecular Theory (Chapter 13): gases typically behave in a way that allows us to make assumptions in order.

Gases Chapter The Gas Laws: Kinetic Molecular Theory (Chapter 13): gases typically behave in a way that allows us to make assumptions in order.
IB Topic 1: Quantitative Chemistry 1.4 (cont): Gaseous Volume Relationships in Chemical Reactions Solve problems involving the relationship between temperature,

IB Topic 1: Quantitative Chemistry 1.4 (cont): Gaseous Volume Relationships in Chemical Reactions Solve problems involving the relationship between temperature,
Aim: What are the properties of Gases?. Compressibility Compressibility is measure of how much volume decreases under increased pressure. Gases are easily.

Aim: What are the properties of Gases?. Compressibility Compressibility is measure of how much volume decreases under increased pressure. Gases are easily.
Compressibility Compressibility is a measure of how much the volume of matter decreases under pressure.

Compressibility Compressibility is a measure of how much the volume of matter decreases under pressure.
Gases.

Gases.
1 How Do Gases Behave? The behavior of gases can be described by the kinetic molecular theory of ideal gases. Gases consist of submicroscopic particles.

1 How Do Gases Behave? The behavior of gases can be described by the kinetic molecular theory of ideal gases. Gases consist of submicroscopic particles.
The Behavior of Gases. Properties of Gases (Review) No definite shape No definite shape No definite volume No definite volume compressible compressible.

The Behavior of Gases. Properties of Gases (Review) No definite shape No definite shape No definite volume No definite volume compressible compressible.

Similar presentations

Ads by Google