Unit 2.1 - Thermochemistry

Question 1

How do chemists measure energy changes?

Answer 1

When a system changes from one energy state to another
NOT the actual energy of the system

Question 2

Give 2 examples of reactions that release heat/energy to their surroundings

Answer 2

Burning of fuels
Neutralisation of acids by alkalis

Question 3

What are energy changes measured in?

Answer 3

kJmol-1

Question 4

Law of conservation of energy

Answer 4

Energy is neither created nor destroyed in a chemical reaction, but only changed from one form into another form

Question 5

What do closed systems allow the transfer of?

Answer 5

Energy, not mass

Question 6

What type of system allows the transfer of energy but not mass?

Answer 6

Closed system

Question 7

Are all energy changes obvious?

Answer 7

Some are (e.g - coal burning) but some go unnoticed

Question 8

Enthalpy change definition

Answer 8

At constant pressure and temperature, the heat energy which is gained or lost in a chemical reaction is known as the Enthalpy change

Question 9

Enthalpy change symbol

Answer 9

ΔH

Question 10

What type of enthalpy of a substance is impossible to measure?

Answer 10

The absolute enthalpy

Question 11

What can be calculated as opposed to an absolute enthalpy?

Answer 11

An Enthalpy CHANGE that occurs during a chemical reaction (enthalpy of products - enthalpy of reactants)

Question 12

How come enthalpy changes are used?

Answer 12

It’s easier to carry out measurements at constant pressure

Question 13

ΔH unit

Answer 13

kJmol-1

Question 14

Exothermic reactions

Answer 14

Involve the loss of heat to the surroundings

Question 15

Enthalpy change of an exothermic reaction + explanation

Answer 15

Negative
Energy is lost

Question 16

3 examples of exothermic reactions

Answer 16

Combustion
Respiration
Bond forming

Question 17

Endothermic reactions

Answer 17

Involve the gain of heat to the surroundings

Question 18

Enthalpy changes of endothermic reactions + explanation

Answer 18

Positive
Energy is gained

Question 19

Give 4 examples of endothermic reactions

Answer 19

Photosynthesis
Thermal decomposition of calcium carbonate
Ice packs
Bond breaking

Question 20

Draw and label an exothermic energy graph

Answer 20

(See notes)

Question 21

Draw an label an endothermic energy graph

Answer 21

(See notes)

Question 22

What type of enthalpy does the activation energy of the forward reaction - backward reaction of an exothermic reaction give?

Answer 22

Negative

Question 23

What type of enthalpy does the activation energy of the forward reaction - backward reaction of an endothermic reaction give?

Answer 23

Positive

Question 24

Which is highest in an exothermic reaction - the enthalpy of products or reagents?

Answer 24

Reagents

Question 25

Which is highest in an endothermic reaction - the enthalpy of products or reagents?

Answer 25

Products

Question 26

Observation we would make in an experiment in which an exothermic reaction occurs

Answer 26

Tube feels hot

Question 27

Observation we would make in an experiment in which an endothermic reaction occurs

Answer 27

Tube feels colder

Question 28

Hess’s Law

Answer 28

The enthalpy change which takes place in a chemical reaction is independent of the path which the reaction takes

Question 29

Why is Hess’s Law definitely true?

Answer 29

If it weren’t, it would be possible to CREATE energy in a chemical reaction (conservation of energy!!)

Question 30

What’s Hess’s Law practically a restatement of?

Answer 30

The law of conservation of energy

Question 31

Draw and label a stereotypical Hess’s Law energy cycle

Answer 31

(See notes)
Make sure it shows that

ΔH1 = ΔH2 + ΔH3 + ΔH4

Question 32

What must be known in order to compare the enthalpy changes of various reactions?

Answer 32

Standard conditions

Question 33

What ARE standard conditions?

Answer 33

Temperature - 298K (25 degrees Celsius)
Pressure - 1.01x10^5 Pa (1 atm)

Question 34

Concentration of ant solution used under standard conditions

Answer 34

1moldm^-3

Question 35

What are vital that we write out in this unit?

Answer 35

State symbols
(g) (l) (aq) (s)

Question 36

How is enthalpy change written to represent standard conditions?

Answer 36

ΔH°

Question 37

What does ΔH° represent?

Answer 37

Enthalpy change of standard conditions

Question 38

Standard state of an element

Answer 38

The most stable state of an element at standard conditions

Question 39

What’s the enthalpy change of formation of elements in their standard states?

Answer 39

Zero

Question 40

Which elements have an enthalpy change of zero?

Answer 40

Elements in heir standard states

Question 41

3 examples of elements in their standard states

Answer 41

Al (s), O2 (g), C (s)

Question 42

What’s the standard state of carbon?

Answer 42

Graphite
C (s)

Question 43

Enthalpy change of formation symbol

Answer 43

ΔH°f

Question 44

Enthalpy change of reaction

Answer 44

The enthalpy change when the reactants are converted into products in a chemical reaction
So, the enthalpy change is the overall enthalpy during the reaction

Question 45

Standard molar enthalpy change of formation

Answer 45

The enthalpy change when 1 mole of a compound is formed in its standard state from its elements in their standard states under standard conditions

Question 46

What type of reaction is formation?

Answer 46

Usually (not always) exothermic

Question 47

How is carbon usually taken and why?

Answer 47

As the graphite allotrope - most stable form of carbon

Question 48

What do we need to remember when balancing equations for standard enthalpy change of formation?

Answer 48

Only 1 mole of product on the RHS of the equation

Question 49

Enthalpy of formation of elements in their standard states

Answer 49

Zero

Question 50

What also has an effect on the value of ΔH°f? Give an example

Answer 50

The physical states of the reagents and products
E.g - Formation of steam as opposed to liquid water has a lower value

Question 51

Why is the value for ΔH°f lower when forming steam as opposed to liquid water?

Answer 51

Enthalpy change for the conversion of liquid water into steam is also required, which is endothermic

Question 52

Standard enthalpy of combustion definition

Answer 52

The enthalpy change when 1 mole of a substance undergoes complete combustion under standard conditions
All reactants and products are in their standard states

Question 53

Standard enthalpy of combustion symbol

Answer 53

ΔH°c

Question 54

What type of reaction is combustion?

Answer 54

Always exothermic

Question 55

What do reactants react with during combustion?

Answer 55

O2

Question 56

What do reactants form during combustion?

Answer 56

C02 an H20

Question 57

What do we need to remember when balancing combustion reactions?

Answer 57

Always only 1 mole of whatever is burning on the LHS of the equation

Question 58

What do you do to an enthalpy change value if you go in an opposite direction (i.e - clockwise and anticlockwise)?

Answer 58

Subtract the enthalpy change value

Question 59

What does using Hess’s Law enable us to calculate the enthalpy changes from?

Answer 59

Changes which cannot be measured directly (e.g - lattice enthalpy)
ΔH°of reaction from bond enthalpy
ΔH° of reaction from ΔH°c
ΔH° of formation from ΔH°f

Question 60

What’s an alternative way in which a reaction could proceed so that we can use Hess’s law?

Answer 60

Convert all the reactants into their constituent elements in their standard states and then convert them into products

Question 61

Which 2 ΔH°’s are equal to according to Hess’s Law?

Answer 61

Clockwise and anticlockwise

Question 62

What do we need to know to calculate the enthalpy change of ANY reaction and using which method?

Answer 62

If we know the enthalpies of formation of all the reactants and products, remembering that route 1 = route 2 (clockwise and anti-clockwise) enables us to rearrange the equation and calculate it

Question 63

The enthalpy of formation of elements in their standard states

Answer 63

Always zero

Question 64

Equation for using enthalpies of formation to calculate the enthalpy change

Answer 64

ΔH = Σ[ΔHf(products)] - Σ[ΔHf(reactants)]

Question 65

What type of compounds all burn in air to give CO2 and H20?

Answer 65

Organic compounds

Question 66

What would be equal in amounts when burning during combustion?

Answer 66

If you b urned all the products, you should get the same amounts of oxidation products such as CO2 and H2O as it you burned the reactants

Question 67

What would be an alternative way for the following reaction to work out?
C (s) +2H2 (g) —> CH4 (g)

Answer 67

Convert the reactants to CO2 and H2O by combustion and to convert CO2 into methane and oxygen (i.e - reverse combustion)

Question 68

What do we need to do to the values of enthalpies of formation and combustion if there’s more than 1 mole of that in the equation?

Answer 68

Multiply them up so that there’s enough

Question 69

Which way do the arrows face in a combustion reaction in a Hess’s law energy cycle?

Answer 69

Towards the combustion products

Question 70

Which way do the arrows face in an enthalpy of formations calculation?

Answer 70

Towards the actual compounds in the equation fro the elements in their standard states

Question 71

Which formula with calculating enthalpy change using enthalpy of combustion can be used?

Answer 71

ΔH = Σ[ΔHc(reactants)] - Σ[ΔHc(products)]
(Reactants and products are flipped compared to the enthalpy of formation reaction)

Question 72

What has to be the reactant for combustion?

Answer 72

a hydrocarbon

Question 73

What are the substances placed in for measuring the energy change in a reaction in solution?

Answer 73

A calorimeter

Question 74

Equation for energy changes in solution

Answer 74

Q = -mcΔT

Question 75

What’s the equation Q = -mcΔT used for?

Answer 75

Measuring the energy change in solution

Question 76

What’s c in Q = -mcΔT?

Answer 76

Specific heat capacity (constant)

Question 77

What’s Q in Q= -mcΔT?

Answer 77

Energy change (J)

Question 78

What’s m in Q= -mcΔT?

Answer 78

Mass of solution (g)

Question 79

What’s ΔT in Q = -mcΔT?

Answer 79

Temperature change (K or Celsius)

Question 80

Describe the method for measuring the energy change in a reaction in solution

Answer 80

1. A known amount of one of the substances is placed in a calorimeter (e.g - an aqueous solution of known concentration)
2. The temperature of the solution is noted
3. The other substance is added and the mixture is stirred
4. The change in temperature of the mixture is measured my measuring the temperature at set time intervals
5. Plot temperature v.s time
6. Maximum temperature rise is found by extrapolation
7. Energy change is measured using
   Q = -mcΔT
8. The value of Q is scaled up to 1 mole
   ΔH = -mcΔT
   ————
   n
   (Remember to divide by 1000 too to get the answer in kJmol-1, the unit of energy changes)

Question 81

The mass of what do we use for calculating enthalpy changed in solution?

Answer 81

The mass of the solution, not the solid

Question 82

What would 25cm^3 of HCl be in terms of mass and why?

Answer 82

25g as acid is made up of water that has a density of 1gcm^3

Question 83

cm^3 to g

Answer 83

The same

Question 84

Equation for the value of Q being scaled up to 1 mole for calculating enthalpy changes in solution

Answer 84

ΔH = -mcΔT
———
n

Question 85

What’s n in ΔH = -mcΔT
———
n

Answer 85

Moles responsible for energy change Q

Question 86

Why is there a minus sign in Q = -mcΔT?

Answer 86

Exothermic reaction leads to temperature increase

Question 87

Which value for the moles do we always choose to divide by when calculating enthalpies in solution?

Answer 87

The smallest moles value (not the one in excess)

Question 88

How do we know which moles value is in excess?

Answer 88

It’s a larger value than the other

Question 89

Why is it important for acid to be in excess during a reaction?

Answer 89

For the reactant to fully react for the maximum possible energy change

Question 90

How can we ensure the maximum possible energy change for a reaction in solution?

Answer 90

Add the acid in excess for the reactant to fully react

Question 91

What’s the final step when working out the enthalpy change of a solution?

Answer 91

Change from Jmol-1 to kJmol-1 by dividing by 1000

Question 92

Calorimeter

Answer 92

An apparatus used for measuring the amount of heat involved in a chemical reaction

Question 93

When does the rule for the enthalpy of elements in their standard states being zero not apply?

Answer 93

During combustion of elements- it’s only for the formation of elements

Question 94

Name four substances for which the energy of combustion is zero

Answer 94

CO2
H2O
O2
Noble gases

Question 95

What would happen to the value of the enthalpy change of a reaction if nitric acid were added instead of hydrochloric acid? Why?

Answer 95

It would stay the same
Nitric acid is also monoprotic and so would react in the same ratio as hydrochloric acid

Question 96

Standard enthalpy change of reaction definition

Answer 96

The enthalpy change that occurs when the quantities of reactants shown in the equation must react under standard conditions with all reactants and products in their standard states

Question 97

Where should energy change reactions be carried out and why?

Answer 97

In an insulated container to prevent heat energy loss to surroundings

Question 98

Why can some enthalpy changes not be measured directly?

Answer 98

Other products may form
Elements may not all react with each other under standard conditions

Question 99

Why would a value for an enthalpy change be lower than expected?

Answer 99

incomplete reactions
heat loss

Question 100

What do we use as the mass when using q = -mc∆T if we have two liquids?

Answer 100

Add the mass of the two liquids

Question 101

What tends to happen to the value of the energy change measured in a reaction?

Answer 101

Tend to be underestimated

Question 102

Why do the energy changes of a reaction tend to be an underestimate of the actual energy change in a reaction?

Answer 102

Due to heat loss to the surroundings

Question 103

How do we minimise heat loss to the surroundings when measuring energy changes?

Answer 103

Place a lid on the container
Improve insulation

Question 104

On our endothermic and exothermic graphs for calculating enthalpy changes, what’s our calculation for working out the change in temperature?

Answer 104

∆T = final - initial

Question 105

What’s the ∆T from the endothermic graph?

Answer 105

negative

Question 106

What’s the ∆T from the exothermic graph?

Answer 106

Positive

Question 107

Why do we use extrapolation on graphs to calculate the temperature changes of a reaction?

Answer 107

It takes into account heat loss to surroundings

Question 108

With diatomic molecules, what does the process of calculating the enthalpy change correspond to?

Answer 108

The breaking of the individual covalent bonds

Question 109

In what type of molecules does calculating the enthalpy change of bond dissociation correspond to the breaking of individual covalent bonds?

Answer 109

Diatomic gas molecules

Question 110

Bond dissociation enthalpy

Answer 110

A quantitative measure of the bond enthalpy

Question 111

What does a greater bond energy for bond dissociation enthalpy represent?

Answer 111

Stronger bonds

Question 112

What represent stronger bonds with bond dissociation enthalpy?

Answer 112

Greater bond energy

Question 113

In what type of molecules are average bond energies used to calculate the enthalpy change of a reaction?

Answer 113

More complex molecules

Question 114

How is the enthalpy change of a reaction determined using bond energies for more complex molecules?

Answer 114

Using average bond energy

Question 115

Average bond energy

Answer 115

The average energy required per bond to break the bonds in the molecule

Question 116

Can the bond energy for one compound be used for another compound?

Answer 116

Yes

Question 117

In reality, are bond energies the same in all compounds? Why?

Answer 117

No, due to the environments of compounds, so we simply use these bond energy figures as estimates

Question 118

How do we complete calculations with bond energies and to determine what?

Answer 118

Apply Hess’s law to determine the enthalpy change of a reaction

Question 119

Formula for calculating the enthalpy change of a reaction using bond energies

Answer 119

Enthalpy change of reaction = sum of the bonds broken - sum of the bonds formed

Question 120

Acronym + definitions to help remember the formula for the enthalpy change of a reaction using bond energies

Answer 120

“BERP”
“Bond enthalpies = R - P”

Question 121

What should we do when working out the enthalpy change of a reaction using bond energies and why?

Answer 121

Re-write the equation showing all bonds present to reduce the risk of not counting any bonds

Question 122

Do we use molar ratios when dealing with bond energy for enthalpy changes?

Answer 122

Yes

Question 123

Average bond enthalpy

Answer 123

The energy required to break 1 mole of a bond in a gaseous species under standard conditions

Question 124

What’s important to remember when calculating the enthalpy change of a reaction using bind enthalpies when CO2 is involved?

Answer 124

Draw CO2 with double lines!

Question 125

What often makes it difficult to measure the enthalpy change of a reaction directly?

Answer 125

No water or solution- can’t measure the temperature change

Question 126

How do you calculate the energy released per gram of fuel burned? Explain

Answer 126

Total energy released
——————————
Mr

kJmol-1
————
gmol-1

kJg-1
(Energy per gram)

Question 127

What can average bond enthalpies vary depending on?

Answer 127

The environment

Question 128

What’s the relationship between the enthalpy of formation value and the stability of an oxide?

Answer 128

More negative = more Stable

Question 129

What assumptions are made when finding enthalpy change values form experimental results?

Answer 129

No heat loss
Reaction is complete
Density of solution is 1gcm^-3
Specific what capacity is the same as water

(Think of the equation)

Question 130

How would a reactant being damp change our experiment for calculating the enthalpy change of a reaction?

Answer 130

Less exothermic
Less to react
Lower temperature rise

Question 131

What is it important to show in the diagram for showing the enthalpy change of a reaction?

Answer 131

Thermometer
Lid
Insulated polystyrene container with reagents

Question 132

Why are averages used for bond enthalpies?

Answer 132

Each individual bond will be in a different environment and so will have a different strength

Question 133

Why is it difficult to measure the standard enthalpy change of formation of ethanol directly?

Answer 133

Activation energy for the reaction is too high
C, H and O will likely form other products when reacting
C, H and O don’t easily react under these (room temperature) conditions

Question 134

Why is it difficulty yo determine the enthalpy change of combustion of ethane?

Answer 134

It’s a gas, so there’s practical problems

Question 135

How can we minimise heat loss to surroundings when using a spirit burner to determine the enthalpy change of combustion, except from better insulating the apparatus?

Answer 135

Reduce the distance between the flame and the beaker

Question 136

What affect do catalysts have on enthalpy changes?

Answer 136

None

Question 137

Why should the enthalpy change of combustion of isomers of a molecule all be similar?

Answer 137

Same number of bonds
Same types of bonds
The energy absorbed by breaking bonds and the energy released by forming bonds will be similar

Question 138

What’s a good reason to maintain an excess of oxygen when burning a fuel?

Answer 138

More energy released

Question 139

Which equation is used for “heat released” in a reaction?

Answer 139

q = mc(delta)T

(q = heat, so if this is all the question asks for, no need to work out the enthalpy change of reaction)

Question 140

What is q equal to?

Answer 140

Heat