Presentation is loading. Please wait.

Presentation is loading. Please wait.

Is this your room/ Then you already know about entropy.

Published byDarin Fennel Modified over 9 years ago

Similar presentations

Presentation on theme: "Is this your room/ Then you already know about entropy."— Presentation transcript:

1 Is this your room/ Then you already know about entropy

2 Using a simple approach, Define entropy as a measure of disorder. A system (such as a room) is in a state of high entropy when its degree of disorder is high. As the order within a system increases, its entropy decreases.

3 For better or for worse, nature 'likes' chaos, disorder, high entropy... In fact, much of our life consists in fighting this disorder! A system (such as a room) is in a state of high entropy when its degree of disorder is high.

4 This can be explained in terms of probabilities. Disordered states are simply more likely to exist (or emerge) than ordered states. The spontaneous direction of change is from a less probable to a more probable state, as illustrated above. 2 20 ways to arrange?

5 In general Gases have higher entropies than liquids. Liquids have higher entropies than solids.

6 Also … Entropy is greater for larger atoms. Entropy is greater for molecules with more atoms.

7 Examples Ar has higher entropy than Ne as Ar molecules are larger. C 8 H 18(l) has higher entropy than C 5 H 12(l) as complex molecules have higher entropy than simple ones. Br 2(g) has higher entropy than Br 2(l) as gases have higher entropies than liquids since gases have more ways of being arranged

8 Entropy (CI 4.3) Liquids mix because there are more ways of being mixed than unmixed. i.e. disorder increases. Note that: not all liquids mix; e.g. water does not mix with oil, because the forces of attraction between water molecules are stronger than the forces of attraction between oil molecules  they do not mix They are immiscible

9 On to CI 4.4 AS – entropy is a measure of the number of ways particles can be arranged. A2 – entropy is a measure of the number of ways quanta (packages of energy) can be arranged.

10 What happens to electrons? 1 2 3 4 Electrons absorb quanta of energy Electrons are excited Electrons move to higher energy level E = h v

11 Molecules are made of more than one atom but they still have electrons. Electronic transitions Vis + UV

12 Molecules move !

13 There are vibrational energy levels as well as electronic energy level.. I.R.

14 There are rotational energy levels as well as electronic energy level.. microwave

15 Electronic transitions Vis + UV Rotational transitions Vibrational transitions Microwave I.R.

16 EV R T

17 EV R T

18 On to CI 4.4 AS – entropy is a measure of the number of ways particles can be arranged. A2 – entropy is a measure of the number of ways quanta (packages of energy) can be arranged.

19 4 quanta – 2 molecules Molecule 1Molecule 2 04 13 22 31 40 5 ways

20 6 quanta – 2 molecules? More quanta Molecule 1Molecule 2 5  7 more ways

21 4 quanta – 2 molecules Molecule 1Molecule 2 04 13 22 31 40 5 ways

22 4 quanta – 3 molecules Molecule 1Molecule 2Molecule 3 More molecules 5  15 More ways

23 On to CI 4.4 AS – entropy is a measure of the number of ways particles can be arranged. A2 – entropy is a measure of the number of ways quanta (packages of energy) can be arranged. Entropy greater if more quanta (heat it) Entropy greater if more molecules

24 Bigger atoms/molecules have more entropy?

25 EV R T EV R T EV R T

Download ppt "Is this your room/ Then you already know about entropy."

Similar presentations

Lecture 344/24/06. Entropy (Measurement of disorder) Related to number of microstates ∆S universe = ∆S system + ∆S surroundings 2 nd Law of Thermodynamics.

Lecture 344/24/06. Entropy (Measurement of disorder) Related to number of microstates ∆S universe = ∆S system + ∆S surroundings 2 nd Law of Thermodynamics.
The entropy, S, of a system quantifies the degree of disorder or randomness in the system; larger the number of arrangements available to the system, larger.

The entropy, S, of a system quantifies the degree of disorder or randomness in the system; larger the number of arrangements available to the system, larger.
Chemical Ideas 6.7 Where does colour come from?. 25 questions to see what you’ve remembered.

Chemical Ideas 6.7 Where does colour come from?. 25 questions to see what you’ve remembered.
Ch. 4: “The Structure of Matter” Section 1: “Compounds & Molecules”

Ch. 4: “The Structure of Matter” Section 1: “Compounds & Molecules”
Unit 1 – Physical Properties of Matter Lesson 3. C11-1-04: Explain the process of melting, solidification, sublimation, and deposition in terms of the.

Unit 1 – Physical Properties of Matter Lesson 3. C : Explain the process of melting, solidification, sublimation, and deposition in terms of the.
Chapter 19 Reaction Rates and Equilibrium. I.Rates of reaction A. Collision Theory 1. rates : measure the speed of any change during a time interval 2.

Chapter 19 Reaction Rates and Equilibrium. I.Rates of reaction A. Collision Theory 1. rates : measure the speed of any change during a time interval 2.

Prentice Hall © 2003Chapter 19 Chapter 19 Chemical Thermodynamics CHEMISTRY The Central Science 9th Edition David P. White.

Prentice Hall © 2003Chapter 19 Chapter 19 Chemical Thermodynamics CHEMISTRY The Central Science 9th Edition David P. White.
Reaction Rate How Fast Does the Reaction Go Collision Theory l In order to react molecules and atoms must touch each other. l They must hit each other.

Reaction Rate How Fast Does the Reaction Go Collision Theory l In order to react molecules and atoms must touch each other. l They must hit each other.
Aim: What is the difference between solids, liquids, and gases?

Aim: What is the difference between solids, liquids, and gases?
Chemical Ideas 6.2 What happens when radiation intracts with matter?

Chemical Ideas 6.2 What happens when radiation intracts with matter?
1 2 $100 $200 $300 $400 $500 3 What is wind? Energy Sources RenewableNonrenewable suncoal ?natural gas Of the following, it’s the word that best completes.

1 2 $100 $200 $300 $400 $500 3 What is wind? Energy Sources RenewableNonrenewable suncoal ?natural gas Of the following, it’s the word that best completes.
Prentice Hall © 2003Chapter 19 Chapter 19 Chemical Thermodynamics CHEMISTRY The Central Science 9th Edition.

Prentice Hall © 2003Chapter 19 Chapter 19 Chemical Thermodynamics CHEMISTRY The Central Science 9th Edition.
 Consider a very hot mug of coffee on the countertop of your kitchen.  Over time the coffee’s temperature will cool.

 Consider a very hot mug of coffee on the countertop of your kitchen.  Over time the coffee’s temperature will cool.
Chapter 11a : Solutions and Their Properties. Introduction 1. A mixture is any intimate combination of two or more pure substances 2. Can be classified.

Chapter 11a : Solutions and Their Properties. Introduction 1. A mixture is any intimate combination of two or more pure substances 2. Can be classified.
TrueFalseStatementTrueFalse Solids have a definite shape and volume, and their particles do not move Liquids have definite shape, not volume, and their.

TrueFalseStatementTrueFalse Solids have a definite shape and volume, and their particles do not move Liquids have definite shape, not volume, and their.
PHYSICAL PROPERTIES OF MATTER Phases of Matter.

PHYSICAL PROPERTIES OF MATTER Phases of Matter.
What are the driving forces behind chemical reactions?

What are the driving forces behind chemical reactions?
 Matter is anything that occupies space and has mass.  Matter is made up of tiny and discrete particles.  These particles are:  Atom.  Molecule.

 Matter is anything that occupies space and has mass.  Matter is made up of tiny and discrete particles.  These particles are:  Atom.  Molecule.
Kinetics. Kinetics - rates of chemical reactions and the mechanisms by which they occur Rate of a chemical reaction - change in the concentration of products.

Kinetics. Kinetics - rates of chemical reactions and the mechanisms by which they occur Rate of a chemical reaction - change in the concentration of products.

Similar presentations

Ads by Google