Unit 3.7 - Entropy and the feasibility of reactions

Question 1

What term do we use if a reaction can happen?

Answer 1

Feasible

Question 2

Spontaneous reactions

Answer 2

Reactions that happen easily, on their own accord without outside interference

Question 3

Example of a spontaneous reaction

Answer 3

Group 1 + water

Question 4

Examples of reactions that need happen (are feasible but not spontaneous)

Answer 4

Rusting
Food oxidations

Question 5

Examples of reactions that are not feasible (don’t happen)

Answer 5

Platinum in water
Br2 + 2Cl-

Question 6

What affects the feasibility of a reaction?

Answer 6

The change in energy - going down an energy gradient
The activation energy

Question 7

What do both the change in energy and activation energy affect for a reaction?

Answer 7

Its feasibility

Question 8

What type of reactions seem to be feasible and what type of reactions less so?

Answer 8

Feasible —> exothermic reactions
Less feasible —> endothermic reactions

Question 9

Why are endothermic reactions not favourable?

Answer 9

Products are less stable than the reactants

Question 10

Give 2 examples of spontaneous endothermic reactions

Answer 10

-sodium hydrogencarbonate and hydrochloric acid reacting in the cold
-ionic substances dissolving in water at room temperature

Question 11

What type of reaction is diamond burning in oxygen?

Answer 11

Very exothermic

Question 12

Diamond burning in oxygen is a very exothermic reaction, so why doesn’t it happen spontaneously?

Answer 12

The presence of strong covalent bonds in diamond means that it takes a lot of energy to break apart the carbon atoms in diamond in order to free them up to burn with oxygen = very high temperature needed

Question 13

What is another factor that we need to determine whether a reaction is feasible, on top of just knowing the enthalpy change?

Answer 13

Entropy

Question 14

What 2 things do we need to know in order to determine whether a reaction is feasible?

Answer 14

Enthalpy change
Entropy

Question 15

Symbol for entropy

Answer 15

S

Question 16

What is entropy?

Answer 16

A quantitative measurement of the freedom of molecules - a measure of disorder

Question 17

S meaning

Answer 17

Entropy

Question 18

Units of entropy

Answer 18

JK-1mol-1

Question 19

Name and explain the 3 things that affect the value of entropy

Answer 19

The more disordered a substance, the higher the entropy
Temperature
Entropy will also generally be higher if there are more moles or more complicated molecules

Question 20

What does a more disordered substance do to the value of the entropy?

Answer 20

Increases it

Question 21

What is another thing that increases entropy except for being a disordered substance?

Answer 21

Entropy will generally be higher if there are more moles or more complicated molecules

Question 22

example of entropy increasing for a more complicated molecule

Answer 22

CO2>CO in terms of entropy

Question 23

Put solid liquid and gas in order of increasing entropy

Answer 23

S (solid) < S (liquid) < S (gas)

Question 24

why do solids have low entropy values?

Answer 24

Highly ordered particles

Question 25

Why do gases have the highest entropy values?

Answer 25

Most disorganised particles

Question 26

Why does a liquid have an intermediate entropy value?

Answer 26

Less ordered particles than a solid, but not as disorganised as the particles of a gas

Question 27

What does the superscript o symbol mean?

Answer 27

Under Standard conditions

Question 28

What does a substance being more complex make it?

Answer 28

More entropic

Question 29

What type of compounds are the most entropic?

Answer 29

More complex ones

Question 30

Is air quite entropic? Why?

Answer 30

Yes, since it’s composed of a mixture of different gases (complex)

Question 31

What does each substance at a given temperature and pressure have?

Answer 31

A unique entropy

Question 32

How do we work out the entropy change for a reaction?

Answer 32

Change in entropy = entropy of all the products - entropy of all the reactants

Question 33

How can we predict whether entropy will increase or decrease without entropy values?

Answer 33

By counting the number of *moles* of elements in their different states and remember that S(solid)

Question 34

Stages to working out entropy changes

Answer 34

1. Write a balances equation to check number of moles 2. Work out entropy of products and reactants (remembering to multiply up by the number of moles) 3. Use the equation: change in entropy = entropy of all the products - entropy of all the reactants 4. CHECK: entropy has increased - we could predict this as a single solid has produced two substances, a solid and a gas

Question 35

What is the entropy change if entropy increases?

Answer 35

Positive

Question 36

What does a positive entropy change mean has happened?

Answer 36

The entropy has increased

Question 37

Second law of thermodynamics

Answer 37

For a reaction to be feasible, the total entropy of the system has to increase, so ΔS must be positive

Question 38

What conditions have to be true in terms of the entropy of the reaction for a reaction to be feasible?

Answer 38

For a reaction to be feasible, the total entropy of the system has to increase, so ΔS must be positive

Question 39

What does the change in entropy have to be for the reaction to be feasible?

Answer 39

Positive

Question 40

What has to happen to the total entropy of a reaction for the reaction to be feasible

Answer 40

Has to increase

Question 41

When will entropy always tend to increase during a reaction?

Answer 41

In any isolated system that is not in equilibrium

Question 42

Explain why the entropy will always tend to increase in any isolated system that is not in equilibrium

Answer 42

This is the overall entropy - in different parts of the system, the entropy may decrease, but this is because it has increased in other parts of the system This includes the entropy change of the surroundings

Question 43

What does the overall entropy include?

Answer 43

The entropy change of the surroundings

Question 44

NaCl (s) —> Na+ (aq) + Cl- (aq) ΔHsolultion = +5kJmol-1 For any ionic substance to dissolve in water, the enthalpy change of solution must be exothermic, so why does this salt dissolve in water?

Answer 44

Since there’s an increase in entropy of the system Therefore, the total entropy of the system is positive (aq = more disordered than s = increased entropy)

Question 45

What two things do we need to soldier to work out if a reaction is feasible at a certain temperature?

Answer 45

Need to consider the enthalpy change of the reaction and the change in entropy

Question 46

Gibbs free energy equation

Answer 46

ΔG = ΔH - (TΔS)

Question 47

What must ΔG be for a reaction to be feasible?

Answer 47

Negative

Question 48

ΔG meaning

Answer 48

Gibbs free energy

Question 49

Units of everything in the Gibbs free energy equation

Answer 49

ΔG = Gibbs free energy in kJmol-1 ΔH = enthalpy change in kJmol-1 ΔS = entropy change in JK-1mol-1 T = temperature in K

Question 50

Which value do we need to alter in the Gibbs free energy equation and why and how?

Answer 50

Entropy change In JK-1mol-1 Need it to be consistent, so need to divide it by 1000

Question 51

What could we be asked in terms of the Gibbs free energy equation?

Answer 51

If a reaction if feasible at a given temperature At which temperature the reaction becomes feasible

Question 52

What value does Gibbs free energy have to be for a reaction to take place?

Answer 52

Less than or equal to zero

Question 53

How do we calculate the temperature at which a reaction can take place?

Answer 53

ΔG = O So TΔS = ΔH T = ΔH/ΔS

Question 54

How do we know which reaction is the most feasible out of two values?

Answer 54

The most negative Gibbs free energy value

Question 55

What does the value of ΔG having to be for a reaction to occur spontaneously?

Answer 55

Negative

Question 56

If ΔG is negative, what does the reaction do?

Answer 56

Happens spontaneously

Question 57

If ΔG is positive, what does the reaction do?

Answer 57

Doesn’t occur spontaneously

Question 58

How do we know when a reaction will not occur spontaneously?

Answer 58

When ΔG is positive

Question 59

What are the two conditions that we can use to prove whether or not a reaction is feasible?

Answer 59

ΔG must be negative The total entropy of the system has to increase so ΔS must be positive

Question 60

When do we use the total entropy of the system increasing for a reaction to be feasible explanation on why a reaction has occurred?

Answer 60

When we only have information about the states of the elements since we can work out whether entropy has increased/decreased from this

Question 61

When do we use the fact that ΔG needs to be negative for a reaction to be feasible to prove why a reaction has occurred?

Answer 61

When we have information about ΔG

Question 62

If the value for the Gibbs free energy of a reaction isn’t negative (and so isn’t feasible), what may be done to attempt to make the reaction occur spontaneously with no interference (make it feasible)?

Answer 62

The temperature may be increased

Question 63

What’s the best method for working out whether a reaction is feasible when we have a solution reaction? Explain

Answer 63

Electrochemical data (Ecell) since Gibbs free energy data is for solids and liquids. We should be using standard conditions of concentration 1moldm^-3 and 298K temperature too.

Question 64

What do we need to remember to with entropy changes?

Answer 64

Multiply up molar ratios