16: Kinetics 2

Question 1

What is reaction rate?

Answer 1

Change in amount of reactants or products per unit time

Question 2

What does a way to monitor reaction rate have to be?

Answer 2

Pick something that changes as the reaction goes on

Must be continuous monitoring of the reaction over the whole reaction

Question 3

What are some methods of following the rate of reaction?

Answer 3

Gas volume

Loss of mass

Colour change

Change in pH

Titration

Electrical conductivity

Question 4

How is gas volume monitored to measure rate of reaction?

Answer 4

Gas collected in the syringe to record how much given off at regular time intervals

To find conc of a reactant, use pV = nRT

Question 5

How is loss of mass monitored to measure rate of reaction?

Answer 5

System will lose mass if gas is given off

Measure using a balance then use mole calculations to work out moles

Question 6

How is colour change monitored to measure rate of reaction?

Answer 6

Colorimeter measures absorbance of a particular light wavelength

More conc a solution, the higher the absorbance

Question 7

What can absorbance from a colorimeter be used to do?

Answer 7

Plot a calibration curve - graph of conc of a known substance against absorbance

Calibration curve used to convert absorbance into concentration

Take small samples at regular intervals and test absorbance

Question 8

How is pH monitored to measure rate of reaction?

Answer 8

If reaction produces/uses H+ the pH will change

Measure pH at regular intervals and calculate conc of H+

Question 9

How is titration used to measure rate of reaction?

Answer 9

Take small samples of a reaction at regular time intervals and titrate them using a standard solution

Rate can be measured by change in conc of products or reactants over time

Question 10

How is electrical conductivity monitored to measure rate of reaction?

Answer 10

If the number of ions changes so will the electrical conductivity

Question 11

How can a conc-time graph be done?

Answer 11

Measure repeatedly at set intervals during a reaction

Rate at any point and reaction given by gradient at that point of the graph

If curve, draw a tangent to find gradient at that point

Question 12

Does the sign of the tangent matter?

Answer 12

Negative - measuring reactant

Positive - product concentration

Question 13

What is the order of reaction with respect to a reactant?

Answer 13

A value which tells you how the reactant’s concentrations affects the rate

Question 14

What does the order of reaction 0 with respect to X mean?

Answer 14

When [X] changes, the rate stays the same

If [X] doubles the rate of reaction stays the same

Question 15

What does the order of reaction 1 with respect to X mean?

Answer 15

Rate is proportional to [X]

If [X] doubles the rate will double

Question 16

What does the order of reaction 2 with respect to X mean?

Answer 16

Rate is proportional to [X]^2

If [X] doubles, the rate will be 2^2 = 4 times faster

Question 17

How are orders of reactions calculated?

Answer 17

Only from experiments NOT from chemical equations

Question 18

What is the overall order of reaction?

Answer 18

Sum of the orders of all the reactants

Question 19

What does wrt mean?

Answer 19

With respect to

Question 20

What is the graph of rate against [X] when order is 0 wrt X?

Answer 20

Paralell line to the x-axis

Question 21

What is the graph of rate against [X] when order is 1 wrt X?

Answer 21

Straight line through the origin

Question 22

What is the graph of rate against [X] when order is 2 wrt X?

Answer 22

Curve through the origin

Question 23

What is the graph of [X] against time when order is 0 wrt X?

Answer 23

Straight line with negative gradient, starting at (0,k) where k is a positive value

Question 24

What is the graph of [X] against time when order is 1 wrt X?

Answer 24

Curve from steep to flat, half-life is constant

Question 25

What is the graph of [X] against time when order is 2 wrt X?

Answer 25

Curve from steep to flat, half life is not constant

Question 26

How can you tell the difference between a 1 or 2 order graph of conc-time?

Answer 26

Plot a graph of rate-conc for both

1st order gives straight line, 2nd order gives curve

Question 27

How is half-life calculated from a conc-time graph?

Answer 27

Draw lines across y-axis at points where conc has halved

Useful for saying whether 1st or 2nd order

Question 28

What is the inital rate of reaction?

Answer 28

Rate at the start of the reaction

Question 29

What is the inital rates method?

Answer 29

Using the inital rate of an experiment to work out the orders of reaction

Question 30

What are the steps in the inital rate method?

Answer 30

Carry out separate experiments using diferent inital concs of one reactant

Only change one conc at a time, keep the rest constant

Observe how change in inital concs affects inital rates and work out order of each reactant

Question 31

What are the pratical techniques for the inital rate methods?

Answer 31

Coninuous monitoring techniques

Clock reaction

Question 32

How is the coninuous monitoring technique for the inital rate method?

Answer 32

Monitor concentrations or volume continuously over a reaction

Draw conc-time or volume-time graphs

Calculate gradient at time = 0

Question 33

How is a clock reaction done?

Answer 33

Measure time taken for a set amount of product to form, this changes as you vary the conc of one of the reactants

Sudden increase in conc of a certain product as limiting reactant is used up

Usually easily observable end point (colour change) when desired amount of product forms

Quicker the clock reaction finishes the faster the inital rate

Question 34

What are the assumptions of a clock reaction?

Answer 34

Conc of each reactant doesn’t change significantly over the time period of the clock reaction

Temperature stays constant

When end point is seen, reaction has not proceeded too far

Question 35

What are the reactions being monitored in an iodine clock reaction?

Answer 35

H₂O₂ + 2I^- + 2H⁺ → 2H₂O + I₂

2S₂O₃^2- + I₂ → 2I^- + S₄O₆^2-

Question 36

What is the thiosulphate ion?

Answer 36

S₂O₃^2-

Question 37

What is starch used as for iodine clock reactions?

Answer 37

Indicator - turns blue/black in the presence of iodine

Question 38

How are the two reactions linked in the iodine clock reaction?

Answer 38

H₂O₂ + 2I^- + 2H⁺ → 2H₂O + I₂

2S₂O₃^2- + I₂ → 2I^- + S₄O₆^2-

Iodine made in first is used in second reaction until thiosulphate is used up

Then starch will turn blue-black as iodine is in the solution

Question 39

What is changed in the iodine clock reaction?

Answer 39

Hydrogen peroxide or iodide concentrations gives different times for the colour change

Time it takes for reaction to occur with conc of reactants allows calculation of inital rate with respect to iodine or hydrogen peroxide

Question 40

How do you do the iodine clock reaction in the lab to calculate order with respect to potassium iodide (KI)?

Answer 40

Rinse a pipette with sulphuric acid then use to transfer small amount of known conc to a clean beaker

Add distilled water to beaker and a few drops of starch

Measure a set amount of KI and sodium thiosulphate of known conc using different burettes and add to beaker

Measure H₂O₂ using burette and start stopwatch when added to beaker

Stop stopwatch when colour change (colourless -> blue/black) which is the end point

Record time with quantities of sulphuric acid, water, KI, sodium thiosulphate

Repeat varying KI volume, keep sulphuric acid and thiosulphate and H₂O₂ and vary water to keep overall volume constant

Question 41

How is the inital rate found from the iodine clock reaction?

Answer 41

Time took to reach the end point used to find inital rate

Comparing inital rates means you can find reaction order with respect to KI

Question 42

What is an example of the conitnuous monitoring titrimetric method?

Answer 42

The iodine-propanone reaction, uses a H⁺ acid catalyst

CH₃COCH + I₂ → CH₃COCH₂I + H⁺ + I^-

Question 43

What is a titrimetric method?

Answer 43

Uses titrations throughout the experimnets at regular intervals to find info about the reaction

Question 44

What is the procedure of the titrimetric method for the iodine-propanone reaction?

Answer 44

Taking samples at regular intervals

Quench/stop reaction by adding sodium hydrogencarbonate to neutralsie the acid

Titrate each sample against sodium thiosulphate and starch to calcualte conc of the iodine

Repeat the experiment several times, changing the conc of one reatant

Question 45

What is the rate equation for the reaction: A + B → C + D ?

Answer 45

Rate = k[A]^m[B]ⁿ

k = rate constant

m and n - orders of reaction

Question 46

When looking at the rate equation, what is the formula for the overall order?

Answer 46

m + n

Question 47

How does the rate of reaction change as k increases?

Answer 47

Rate of reaction increases as k increases

Question 48

What are not usually included in rate equations?

Answer 48

Spectator ions

e.g. elements with 0 order are left out of the equation

Question 49

How is the data from inital rates method used to calculate orders?

Answer 49

Look at change to rate of reaction when one reactant doubles and others remain constatn

If rate doubles, reaction is 1st order wrt that reactant

If rate increases by 4 times, reaction is 2st order wrt that reactant

If rate doesn’t change, reaction is 0 order wrt that reactant

Question 50

What is the rate-determining step?

Answer 50

The slowest step in a multi-step reaction

Question 51

How many steps are there in reaction mechanisms?

Answer 51

Can be one or many steps

Each step has a different rate

Question 52

What is the rate-determining step sometimes called?

Answer 52

Rate-limiting step

Question 53

What can the rate equation be used to work out?

Answer 53

The mechanism of the chemical reaction

Question 54

How can the rate-determining step be worked out from the rate equation?

Answer 54

If a reactant appears in the rate equation it must be in the rate-determining step as it affects the rate

If it isn’t in the equation, then its not in the rate-determining step

Question 55

What is important to remember about rate-determining steps and mechanisms?

Answer 55

Rate-determining step (RDS) doesn’t have to be the first step in the mechanism

Reaction mechanism can’t usually be predicted from just the chemical reaction

Question 56

What does RDS stand for?

Answer 56

Rate-determining step

Question 57

What does the order of a reaction with respect to a reactant show?

Answer 57

Shows the number fo molecules of that reactant which are involved in or before the rate-determining step

Question 58

What is an SN1 reaction with halogenoalkanes?

Answer 58

Reaction involves 1 molecule or ion in the RDS

Question 59

What is an SN2 reaction with halogenoalkanes?

Answer 59

Reaction involves 2 molecules, 1 molecule and 1 ion, or 2 ions in the RDS

Question 60

What type of nucleophilic substitution do primary halogenoalkanes undergo?

Answer 60

SN2

Question 61

What type of nucleophilic substitution do secondary halogenoalkanes undergo?

Answer 61

Both SN1 and SN2 mechanisms

Question 62

What type of nucleophilic substitution do tertiary halogenoalkanes undergo?

Answer 62

SN1

Question 63

How does SN2 occur?

Answer 63

Single, rate determining step

Nucleophile back attacks and forms a negatively charged transition state

Then it forms the products

Question 64

What is the rate equation for SN2 reaction with OH^- as a nucleophile?

Answer 64

Rate = k[R-X][OH^-]

As there is only one step, both are in the rate equation

Question 65

What are the orders in SN2 mean?

Answer 65

Rate = k[R-X][OH^-]

Rate is dependent on conc of both reactamnts

One OH^- and R-X must be involved in RDS which fits the SN2 mechanism

Question 66

Why do primary halogenalkanes undergo SN2?

Answer 66

A lot of space around the carbon so more space for OH^- to attack

Question 67

What is the rate equation for a tertiary halogenoalkane?

Answer 67

Rate = k[R-X]

Where R-X is a tertiary halogenalkane

Question 68

What is the SN1 mechanism?

Answer 68

Step 1 is RDS (slow) = R-X bond breaks heterolytically, forms X- and carbocation

Step 2 is fast = OH^- attacks postive charge of carbocation

Question 69

Why can the OH^- not attack tertiary halogenoalkanes?

Answer 69

Reaction happens as very little space

Steric repulsion due to the number of electrons

Question 70

What is the Arrhenius equation?

Answer 70

k = A e^-E_a/RT

k = rate constant

A = arhennius constant

E_a = activation energy

R = gas constant (8.31)

T = temperature in kelvin

Question 71

Do you have to learn the arrhenius equation?

Answer 71

No it is given in the exam

Question 72

What occurs to k as E_a increases in the Arhennius equation?

Answer 72

As E_a increases, k decreases

Large E_a means a slow rate of reaction

Question 73

What occurs to k as temperature increases in the Arhennius equation?

Answer 73

As T increases the value for k increases
Hence rate of reaction increases

Question 74

What is the Arhennius equation in log form?

Answer 74

ln k = ln A - E_a/RT

Question 75

What is an Arhennius plot?

Answer 75

Graph of ln k against 1/T

Produces a graph with a gradient of -E_a/R

Gradient used to find activation energy

Question 76

How is the Arhennius plot related to y = mx + c?

Answer 76

ln K = -E_a/R * 1/T + ln A

y = m*x + c

Question 77

How is rate proportional to time?

Answer 77

Rate is proportional to 1/time

Rate = k * 1/time

Question 78

How can time from a clock reaction be used in the Arhennius equation?

Answer 78

Rate is proportional to 1/ time

1/time can be used instead of k

Question 79

Describe the line produced by a Arrhenius plot?

Answer 79

Straight line with negative gradient

Gradient = -E_a/R

Question 80

When finding E_a from a Arrhenius plot, what steps should be taken?

Answer 80

gradient = -E_a/R

E_a = -(gradient*R)/1000
/1000 is done to convert from J/mol to kJ/mol

Question 81

How does a catalyst affect the rate of reaction?

Answer 81

Increases rate of reaction by providing an alternative reaction pathway with a lower activation energy

Catalyst is chemically unchanged

Question 82

What are the two types of catalyst?

Answer 82

Heterogeneous
Homogeneous

Question 83

What is a homogeneous catalyst?

Answer 83

Catalyst in the same state as the reactant

Question 84

What is a heterogeneous catalyst?

Answer 84

A catalyst in a different physical state from the reactants

Question 85

What is a poison with reference to heterogeneous catalysts?

Answer 85

Poison is a substance that clings to a catalysts substance stronger than a reactant does

This prevents the catalyst binding to it and speeding up the reaction

Question 86

Give an example of a poison on a catalyst?

Answer 86

Sulphur can poison the iron catalyst in the Haber process

Question 87

When should you stop the stopwatch when quenching a reaction?

Answer 87

When all of the solution has been added to the beaker with the quenching mixture present