C6 - Rate & Extent of Chemical Changes

Question 1

What does the rate of reaction mean?

Answer 1

How fast reactants are changed into products

Question 2

On a graph, how can you tell how quick the reaction is by the line’s gradient?

Answer 2

The quickest reactions have the steepest gradients and become flat in the least time

Question 3

What do flat lines show on a graph?

Answer 3

The reaction has finished

Question 4

What is collision theory?

Answer 4

The more collisions there are, the faster the reaction is

Question 5

What is the definition for activation energy?

Answer 5

The minimum amount of energy that particles need to react

Question 6

What 4 things affect the rate of reaction?

Answer 6

• Temperature
• Concentration of solution / gas pressure
• Surface area
• Catalysts

Question 7

What is a catalyst?

Answer 7

A substance that speeds up a reaction, without being used up in the reaction itself

Question 8

How do catalysts work?

Answer 8

They work by decreasing the activation energy needed for the reaction to occur. They do this by providing an alternative reaction pathway with a lower activation energy

Question 9

How can the rate of a reaction be observed?

Answer 9

• By how quickly the reactants are used up

- How quickly the products are formed

Question 10

What is the equation for rate of reaction?

Answer 10

rate of reaction = amount of reactant used or amount of product formed ÷ time

Question 11

What are the 3 different ways you can measure the rate of a reaction?

Answer 11

1) Precipitate and colour change - you can observe a mark through the solution and measure how long it takes to disappear. The faster the mark disappears, the quicker the reaction
If the reactants are coloured and the products are colourless (or vice versa), you can time how long it takes for the solution to lose (or gain its colour

2) Change in mass (usually gas given off) - as the gas is released, the mass disappearing is measured on the balance
The quicker the reading on the balance drops, the faster the reaction is

3) Volume of gas given off - the more gas given off during a given time interval, the faster the reaction

Question 12

PRACTICAL: Describe how to investigate how magnesium and hydrochloric acid react to form hydrogen gas

Answer 12

1) Start by adding a set volume of dilute HCl to a conical flask
2) Add some magnesium ribbon to the acid and quickly attach an empty gas syringe to the flask
3) START THE STOPWATCH. Take recordings of the volume of gas in the gas syringe at regular intervals
4) Plot the results in a table
5) Plot this on a graph, with time on the x-axis and volume of gas produced on the y-axis

Question 13

PRACTICAL: Describe how to investigate how sodium thiosulphate and hydrochloric acid produce a cloudy precipitate

Answer 13

1) Add a set volume of dilute sodium thiosulphate to a conical flask
2) Place the flask on a piece of paper with a black cross drawn on it
3) Add some dilute HCl to the flask and START THE STOPWATCH
4) Watch the black cross disappear through the cloudy sulphur and time how long it takes to go

Question 14

PRACTICAL: Describe how you can investigate how the concentration of acid affects rate

Answer 14

1) The reaction can be repeated with solutions of either reactants at different concentrations (only change the concentration of one reactant at a time). The depth of the liquid must be kept the same each time
2) These results show the effect of increasing the concentration of HCl on the rate of reaction, when added to an excess of sodium thiosulphate
3) The higher the concentration, the quicker the reaction and therefore the less time it takes for the mark to disappear

Question 15

How do you find the mean rate of reaction from a graph?

Answer 15

1) To find the mean rate for the whole reaction, you just work out the overall change in the y-value and then divide this by the whole time taken for the reaction
Eg: time taken = 20s, change in y-value = 25cm3
25cm3 ÷ 20s = 1.25cm3/s

2) You can also use the graph to find the mean rate of reaction between any two points in time
Eg: Find the mean rate of reaction between 20s and 40s
(19cm3 - 15cm3) ÷ (40s - 20s) = 0.2cm3/s

Question 16

What do you do if you want to find the mean rate of reaction at a particular point in time?

Answer 16

1) You need to find the gradient of the slope, so draw a tangent to the curve
2) Find the gradient of the tangent using: change in y ÷ change in x (unit = g/min)

Question 17

What is the equation for a reversible reaction?

Answer 17

A + B ⇌ C + D

Question 18

What happens to the concentration as the reactants react?

What happens as more and more products are made?

Answer 18

It falls, slowing down the forwards reaction

The products’ concentrations will risa and the backwards reaction will speed up

Question 19

What does ‘equilibrium’ mean?

Answer 19

The forwards reaction is happening at the same rate as the backwards one

Question 20

What is a closed system?

Answer 20

None of the reactants or products can escape and nothing else can get in

Question 21

What happens is the equilibrium lies to the right?

Answer 21

The concentration of products is greater than that of the reactants

Question 22

What happens is the equilibrium lies to the left?

Answer 22

The concentration of reactants is greater than that of the products

Question 23

What conditions does the position of equilibrium depend on?

Answer 23

• Temperature
• Pressure
• Concentration

Question 24

What happens if, in one direction, the reaction was endothermic?

Answer 24

It will be exothermic the other way

Question 25

What happens if, in one direction, the reaction was exothermic?

Answer 25

It will be endothermic the other way

Question 26

What does Le Chatelier’s Principle state?

Answer 26

If you change the conditions of a reversible reaction at equilibrium, the system will try to counteract the change

Question 27

What happens is you decrease the temperature in a reversible reaction at equilibrium?

Answer 27

The equilibrium will move in the exothermic direction to produce more heat, meaning that you’ll get more products for the exothermic reaction and fewer for the endothermic reaction

Question 28

What happens is you increase the temperature in a reversible reaction at equilibrium?

Answer 28

The equilibrium will move in the endothermic direction to produce less heat, meaning that you’ll get more products for the endothermic reaction and fewer for the exothermic reaction

Question 29

What happens is you increase the pressure in a reversible reaction at equilibrium?

Answer 29

The equilibrium tries to reduce it, so it moves in the direction where there are fewer molecules of gas

Question 30

What happens is you decrease the pressure in a reversible reaction at equilibrium?

Answer 30

The equilibrium tries to increase it, so it moves in the direction where there are more molecules of gas

Question 31

What happens is you increase the concentration of reactants in a reversible reaction at equilibrium?

Answer 31

The system tries to decrease it by making more products

Question 32

What happens is you decrease the concentration of products in a reversible reaction at equilibrium?

Answer 32

The system tries to increase it by making less reactants

Question 33

What does an endothermic reaction mean?

Answer 33

A reaction where the energy is taken in

Question 34

What does an exothermic reaction mean?

Answer 34

A reaction where the energy is given out to the surroundings