rates of reaction

Question 1

Define Rate of Reaction:

Answer 1

The speed at which a reaction occurs - the olume of gas made/lost per second

Question 2

What is activation energy?

Answer 2

The minimum amount of energy with which particles must frequently collide for a reaction to take place

Question 3

What factors affect the rate of reaction?

Answer 3

• temperature
• pressure/concentration
• surface area of reactant
• presence of a catalyst

Question 4

What is the relationship between temperature and the rate of a reaction?

Answer 4

Increasing the temperature, increases the rate of reaction

Question 5

Why is the relationship between temperature and the rate of reaction like so?

Answer 5

• increasing the temperature
• means the particles have more kinetic energy
• so collide more frequently at a level above the activation energy

Question 6

What is the relationship between pressure/concentration and the rate of a reaction?

Answer 6

Increasing the pressure of the gas/ concentration of the solution, increases the rate of reaction

Question 7

Why is the relationship between pressure and the rate of reaction like so?

Answer 7

• increasing the pressure
• means particles are closer together
• so collide more frequently at a level above the activation energy

Question 8

Why is the relationship between concentration and the rate of reaction like so?

Answer 8

• increasing the concentration
• increases the number of particles per unit volume
• meaning there are more frequent collisions between particles at a level above their activation energy

Question 9

What is the relationship between surface area and the rate of a reaction?

Answer 9

increasing the surface area, increases the rate of reaction

Question 10

Why is the reationship between surface area and the rate of a reaction like so?

Answer 10

• increasing the surface area
• means more particles are exposed on the surface to collide with particles in the other reactant
• meaning more frequent collisions between particles at a level above their activation energy

Question 11

What is the relationship between a catalyst and the rate of a reaction?

Answer 11

adding a catalyst, increases the rate of reaction

Question 12

Why is the relationship between a catalyst and the rate of a reaction like so?

Answer 12

• adding a catalyst
• lowers the activation energy required for the particles to collide with
• so there are more frequent collisions between particles at a level above their activation energy

Question 13

How do you calculate the rate of a reaction?

Answer 13

quantity of reactant used/ time taken

quantity of product formed/time taken

Question 14

Describe the required practical investigating the effect of concentration on the rate of reaction:

Answer 14

1) Using a measuring cylinder, put 10 of sodium thiosulphate into a conical flask and ass 40 of water using a measuring cylinder. Place the conical flask on a black cross
2) Put 10 of HCl in a measuring cylinder and add it to the flask, starting a stopwatch at the same time. Ensure the flask is continuously swirled
3) Look from directly above the flask and stop the clock when you can no longer see the cross
4) Record this time
5) Repeat the process but vary the volume of sodium thiosulphate and water to produce different concentrations
6) repeat the whole process at least twice more to calculate a mean time at each concentration

Question 15

What are the key things to be aware of with the equpment for a water displacement test?

Answer 15

• there is a bung to prevent gas escaping
• there are graduation marks on the measuring cylinder
• water fills to the top of the cylinder at the start
• the end of the deliver tube goes into the measuring cylinder

Question 16

What is the main error when using Mg as the reactant with HCl in a water displacement experiment? How can this be fixed?

Answer 16

The hydrogen gas produced by the reacction can dissolve in the water so a gas syringe should be used

Question 17

What are the observations of a reaction between HCl and Mg or CaCO3?

Answer 17

• bubbles of gas

- Mg or CaCO3 dissolves

Question 18

What is the dependent and inderpendent varibale in a water displacement experiment?

Answer 18

• dependent = volume of gas

- independent = temperature of HCl

Question 19

In a loss of mass experiment, what must be added into the conical flask and why?

Answer 19

Cotton wool must be placed in the neck of the conical flask to allow the gas to escape but also preventing the build up of pressure which would occur with a bung

Question 20

What is the dependent and independent variable in a loss of mass experiment?

Answer 20

• independent = surface area

- dependent = mass lost

Question 21

What is a turbidity experiment?

Answer 21

When a solution creates a precipitate and reduces your ability to see through the solution

Question 22

What is a precipitate?

Answer 22

A solid formed from the reaction of two liquids

Question 23

What safety measures are needed in a turbidity reaction between sodium thiosulphate and HCl?

Answer 23

• opening windows for good ventilation for the acidic sulfur dioxide
• using an alkali stop bath solution

Question 24

What are the common errors associated with the turbidity reaction?

Answer 24

• timing errors (inconsistent start time)
• not looking directly down at the cross
• not swirling

Question 25

How does a catalyst increase the rate of a reaction?

Answer 25

• lowers the activation energy required

- by providing an alternative pathway

Question 26

What is the relationship between concentration and volume of gas produced?

Answer 26

Doubling the conc, doubles the vol of gas produced

Question 27

How can we tell what the limiting reagent in a reaction is?

Answer 27

• one who’s moles are less in the reaction than the ration dictates it should be
• find the mol ratio
• than calculate what the ratio should be
• bring the mol ratio to e.g. 2:2 and whatever is lower, is the limiting reagent

Question 28

What happens to hydrated copper sulfate solution when heated?

Answer 28

It decomposes into anhydrous copper sulfate and water

Question 29

What colour is copper sulfate solution?

Answer 29

Blue

Question 30

What colour is anyhdrous copper sulfate?

Answer 30

white

Question 31

How is the hydrated copper sulfate reaction reversed?

Answer 31

By adding water

Question 32

What is the rule of dynamic equilibrium?

Answer 32

In a closed system:

• the forward and reverse reactions are taking place at the same rate
• so the concentration of the reactants and products stays the same

Question 33

What is Le Chatlier’s principle?

Answer 33

If a change is made to the conditions of a system at equilibrium, the position of the equilibrium will shift to oppose the change in conditions

Question 34

What is the reaction in the haber process?

Answer 34

nitrogen + hydrogen = ammonia

Question 35

What are the conditions with which the haber process takes place?

Answer 35

• with an iron catalyst
• at 450 degrees
• at 200atm pressure

Question 36

What is ammonia chemically?

Answer 36

A weak base (proton acceptor)

Question 37

Why must fertilisers be soluble?

Answer 37

So they can dissolve in water and be absorbed by root hair cells

Question 38

What type of mixture is a fertiliser?

Answer 38

a formulation

Question 39

What are the contents of a fertiliser?

Answer 39

• either ammonium ions or nitrate ions (for soluble nitrogen)
• phosphate ions (soluble phosphorus)
• any potassium compound

Question 40

Why can any potassium compound be used in a fertiliser?

Answer 40

Because they all dissolve in water to produce potassium ions

Question 41

What type of reaction can ammonia undergo to make ammonium ions?

Answer 41

neutralisation with nitric acid

Question 42

What is the product of ammonia and nitric acid?

Answer 42

ammonium nitrate salt

Question 43

What type of reaction can ammonia undergo to make nitrate ions?

Answer 43

oxidation

Question 44

How are potassium ions obtained for fertilisers?

Answer 44

potassium chloride or potassium sulfate is mined from the ground

Question 45

Why can’t phosphate rock, unlike potassium, be used as a fertiliser?

Answer 45

It is insoluble

Question 46

What are the three different reactants which can be used with phosphate rock?

Answer 46

• nitric acid
• sulfuric acid
• phosphoric acid

Question 47

What are the products of phosphate rock and nitric acid?

Answer 47

calcium nitrate and phosphoric acid

Question 48

What is done with the phosphoric acid from the reaction between phosphate rock and nitric acid?

Answer 48

neutralised with ammonia to produce ammonium phosphate

Question 49

what is the product of the reaction between phosphate rock and sulfuric acid?

Answer 49

a single superphosphate which contains calcium phosphate and calcium sulfate

Question 50

What is the product of the reaction between phosphate rock and phosphoric acid?

Answer 50

a triple superphosphate (calcium phosphate)

Question 51

What is the effect on a catalyst on equilibrium? Why?

Answer 51

• there is no effect

- as the catalyst speeds up both the forward and reverse reactions equally

Question 52

What is the effect of increasing the concentration of the reactants on equilibrium? Why?

Answer 52

Equilibrium shifts to the right (forward) to oppose the increase in the concentration of the reactants. More of the extra reactants thus get used up to make products

Question 53

What is the effect of decreasing the concentration of the reactants on equilibrium? Why?

Answer 53

Equilibrium shifts to the left to oppose the decrease in the concentration of reactants. Removed reactants must be replaced by the product breaking down

Question 54

What is the effect of increasing the concentration of the products on equilibrium? Why?

Answer 54

Equilibrium shifts to the left to oppose the increase in the concentration of the products. The product breaks down to form more reactants, reducing the amount of the product present

Question 55

What is the effect of decreasing the concentration of the products on equilibrium? Why?

Answer 55

Equilibrium shifts to the right to oppose the decrease in the concentration of the products. There is less product so the reactants will react more to form more product

Question 56

What is the effect of increasing the pressure on equilibrium? Why?

Answer 56

The equilibrium is shifted to the side of the reaction which has less molecules to oppose this increase in pressure so the pressure reduces

Question 57

What is the effect of decreasing the pressure on equilibrium? Why?

Answer 57

The equilibrium is shifted to the side which has more molecules to oppose the decrease in pressure by increasing it

Question 58

When does changing the pressure have no affect on equilibrium?

Answer 58

When there are equal numbers of molecules in the reactants and products

Question 59

What is the effect of increasing the temperature on equilibrium? Why?

Answer 59

The equilibrium is shifted in the direction of the reaction (forward or backward) which is endothermic, in order to cool the environment down, opposing the temperature increase

Question 60

What is the effect of decreasing the temperature on equilibrium? Why?

Answer 60

The equilibrium is shifted in the direction of the reaction (forward or backward) which is exothermic, in order to warm the environment up, opposing the temperature decrease

Question 61

Why is the temperature chosen for the Haber process 450 degrees?

Answer 61

• Lowering the temperature, will increase the yield of ammonia as the equilibrium shift right as the forward reaction is exothermic, so the temperature decrease is opposed
• But increasing the temperature, increases the rate of reaction as particles have more kinetic energy so collide more frequently and with greater energy
• so therefore 450 degrees is a compromise temperature
• meaning it is a balance between the temperature cool enough for equilibrium but warm enough for rate of reaction

Question 62

Why is the low conversion of products to ammonia in the Haber process not a big problem?

Answer 62

since the unreacted reactants are recycled and reacted again to make more ammonia

Question 63

How is ammonia separated out of the Haber process?

Answer 63

the mixture is cooled enough so the ammonia condenses and the liquid is drained out the system whereas the gaseous nitrogen and hydrogen are kept within the system and recycled

Question 64

Define the term equilibrium:

Answer 64

• The rate of the forward reaction is equal to the rate of the backward reaction
• so the concentrations of reactants and products do not change