7. Energetics

Question 0

Describe the energy changes that take place when bonds are broken.

Answer 0

Energy must be put in to break bonds

Question 1

What is thermochemistry?

Answer 1

The study of heat changes during chemical reactions.

Question 2

Describe the energy changes that take place when bonds are formed.

Answer 2

Energy is given out

Question 3

If at the end of a reaction, energy has been given out, what is he reaction called?

Answer 3

Exothermic

Question 4

If at the end of a reaction, energy has been taken in, what is he reaction called?

Answer 4

Endothermic

Question 5

Give an example of an exothermic reaction

Answer 5

Neutralising an acid with an alkali.

Question 6

Give an example of an endothermic reaction

Answer 6

The thermal decomposition of calcium carbonate (limestone) to calcium oxide and carbon dioxide. (It needs heat to proceed).

Question 7

Give a reversible reaction

Answer 7

CuSO4.5H2O CuSO4 + 5H2O
Blue copper sulfate anhydrous copper sulfate + water

—> endothermic (must heat the blue copper sulfate first)
<— exothermic

Question 8

What is always true for an endothermic reaction?

Answer 8

It is always the case that a reaction that is endothermic in one direction is exothermic in the reverse direction and visa versa.

Question 9

What unit is energy given out in reactions measured in?

Answer 9

Kilo joules per mole, kJ mol^-1

Question 10

What is one important application of the study of thermochemistry?

Answer 10

It enables us to compare the efficiency of different fuels.

Question 11

What are potential replacements for crude oil?

Answer 11

Ethanol and methanol - made form plant material

Hydrogen - made from the electrolysis of water

Question 12

What is another name for the energy given out per gram of fuel burned?

Answer 12

The energy density

Question 13

What is the problem with using hydrogen?

Answer 13

Hydrogen is a gas, it takes up a lot of space

Question 14

What do chemists often use to maintain constant temperature?

Answer 14

Open flasks - there are slight variations form day to day but they only cause a small source of systematic error.

Question 15

When we measure a heat change at constant pressure what do we call it?

Answer 15

Enthalpy change

Question 16

What symbol does enthalpy have?

Answer 16

H

Question 17

What are the standard conditions for measuring enthalpy changes?

Answer 17

Pressure of 100kPa

Temperature of 298K (25 degrees)

Question 18

How do we get past the confusion of heat changes at a constant temperature?

Answer 18

We don’t think of the reaction as being over until the products have cooled down/heated up to 298K

Question 19

How much energy do the products end up with in relation to the starting materials in an exothermic reaction?

Answer 19

The products end up with less heat energy than the starting material as they have heated up their surroundings. This means their enthalpy change is negative.

Question 20

How much energy do the products end up with in relation to the starting materials in an endothermic reactions?

Answer 20

The products end up with more energy than the starting materials. They have taken in heat energy. Therefore the enthalpy change is positive.

Question 21

What else effects the enthalpy change of a reaction?

Answer 21

The physical states of the reactants and products (e.g heat must be put in to change liquid to gas)

Question 22

What must always be included in the equations of reactions when calculating enthalpy changes?

Answer 22

State symbol

Question 23

What is sometimes used to show enthalpy changes?

Answer 23

Energy level diagrams

Question 24

What are the x and y axis on the enthalpy diagrams?

Answer 24

X: extent of reaction Y: enthalpy

Question 25

What does a standard exothermic energy level diagram look like?

Answer 25

The reactants are higher than the products; there is a drop down to represent enthalpy change. (Endothermic is the other way round).

Question 26

What is the general name for the enthalpy change for any reaction?

Answer 26

The standard molar enthalpy change of reaction

Question 27

Define the standard molar enthalpy of formation.

Answer 27

/\H*f is the enthalpy change when one mole of compound is formed form its constituent elements under standard conditions, all reactants and products in their standard states.

Question 28

Define the standard molar enthalpy of combustion

Answer 28

/\H*c is the enthalpy change when one mole of compound is completely burned in oxygen under standard conditions, all reactants and products in their standard states.

Question 29

Define temperature

Answer 29

Temperature is the average kinetic energy of the particles in a system.

Question 30

Define heat

Answer 30

Heat is a measure of the total energy of all the particles present in a given amount of substance .

Question 31

Is there any instrument that measures heat directly?

Answer 31

No, there is no instrument that measures heat directly

Question 32

Practically, how do we measure enthalpy change?

Answer 32

We arrange for the heat to be transferred into a particular mass of a substance, often water.

We need to know the mass of water, specific heat capacity of water and the temperature change to figure out the enthalpy change.

Question 33

Give the enthalpy change equation.

Answer 33

Enthalpy change =

mass of substance x specific heat capacity x temperature change
q=m x c x /\T

Question 34

What is the unit of specific heat capacity?

Answer 34

Jg^-1K^-1

Question 35

Define specific heat capacity.

Answer 35

The amount of heat needed to raise the temperature of 1g of substance by 1K.

Question 36

When we find an enthalpy change which piece of apparatus do we usually use?

Answer 36

A calorimeter

Question 37

What is the improved version of the calorimeter called?

Answer 37

The flame calorimeter

Question 38

How does the flame calorimeter reduce heat loss?

Answer 38

• spiral chimney made of copper
• flame enclosed
• fuel burns in pure oxygen, rather than air.

Question 39

What is a very accurate version of the calorimeter called?

Answer 39

The bomb calorimeter
It is sealed so does not measure enthalpy but there is a simple relationship between measured energy change and enthalpy change.

Question 40

What specific heat capacity do we usually give to dilute solutions?

Answer 40

The same one as water.

Question 41

Why do we sometimes use expanded polystyrene beakers for calorimeters?

Answer 41

They are good insulators and have a low specific heat capacity so they absorb very little heat.

Question 42

Are neutralisation reactions in solutions exothermic or endothermic?

Answer 42

Exothermic, they give out heat.

Question 43

What is Hess’s law?

Answer 43

Hess’s law states that the enthalpy change for a chemical reaction is the same, whatever route is taken from reactants to products.

Question 44

What is Hess’s law a consequence of?

Answer 44

The Law of Conservation of Energy

Energy is neither created or destroyed

Question 45

What does Hess’s law teach us in short?

Answer 45

That the total energy change is the same whichever route we take.

Question 46

For thermochemical cycles where enthalpy of combustion is used the elements in the bubble are….? The arrows ……

Answer 46

Carbon dioxide, water and sometimes sulfur dioxide. The arrows come into the element bubbles.

Question 47

The enthalpies of all elements in their standard states are taken as zero. What is the standard state of H2?

Answer 47

Zero, because hydrogen exists as H2 at room temperature and pressure.

Question 48

What is the most stable carbon allotrope?

Answer 48

Graphite.

It is given ex special state symbol s, graphite so: C(s, graphite) represents graphite.

Question 49

In thermochemical cycles for enthalpy of formation where do the arrows go?

Answer 49

The arrows go from the elements in the bubble to the equation.

Question 50

How would you draw an enthalpy diagram?

Answer 50

Draw a line at level 0 to represent the elements
Look up the /\Hf for each compound and draw them on the diagram
/\Hf is the difference in levels taking account of the direction is change. Up is positive and down is negative.

(Put and arrow up to the side saying enthalpy)

Question 51

What suggests that we can assign a definite amount of energy to a particular bond?

Answer 51

The graph of ‘/\H*f’ against ‘number of carbon atoms in the molecules’ is a straight line. These two values increase proportionally. With every new carbon added a CH2 group is aded. There is one extra C-C bond in the molecule and two extra C-H bonds.

Question 52

What do we use in bond enthalpies?

Answer 52

An average value, the same bond in different molecules may have a slightly different Bon enthalpy.

The amount of energy given to the bond is the mean bond enthalpy.

Question 53

We get the same amount of energy out when we make a bond as we put in when we…

Answer 53

…break a bond

Question 54

Why will calculations using mean bond enthalpies only give approximate answers?

Answer 54

Because they are averages - bond enthalpy changes in certain molecules.

Question 55

Why do we use mean bond enthalpies?

Answer 55

They are useful, quick and easy to use. They can also give an approximate value for a compound that has never been made.

Question 56

Give an example of a mean bond enthalpy.

Answer 56

H-H bond energy is the energy required to separate the two atoms in a hydrogen molecule is the gas phase into separate gaseous atoms.

Question 57

You can calculate enthalpy changes of reaction using mean bond enthalpies. Explain how.

Answer 57

Draw out the displayed formula of all the molecules. Count the bonds and add up energy taken to break bonds, and energy taken to make bonds.
If more energy was put in (energy taken to break) than given out (energy given from formation) the enthalpy change is positive.

Eg if endothermic: +
If exothermic: -

Question 58

Do thermochemical cycles or mean bond enthalpies give the most accurate values?

Answer 58

Thermochemical cycles do - the enthalpies of formation have been obtained from the actual compounds involved.