1.9 Rate Equations

Question 1

Determine the term ‘rate of reaction’

Answer 1

Change in concentration (of any reactant or product) per unit time. State what is being monitored (usually production of a product)

Question 2

At a given instant, how could you calculate the rate of reaction?

Answer 2

Rate of reaction = change in concentration / change in time

Question 3

How could you measure the rate of reaction experimentally (different methods)?

Answer 3

Use a colorimeter at suitable intervals if there is a colour change. If gas is evolved, use a gas syringe to collect volume of gas evolved, or measure the change in mass of the reaction mixture.

Question 4

How would you measure reaction rate for really fast reactions? Use a flash

Answer 4

Use a flash of light to break bonds, use probe flashes to record amount of light absorbed by a species; this can show its concentration. First used for ClO2 → ClO• + O•. Can now monitor reactions that occur in times as fast as 10-12 seconds

Question 5

How can you determine the rate constant and rate expression for a reaction?

Answer 5

Only experimentally

Question 6

What affects the value of the rate constant for a given reaction?

Answer 6

Temperature only

Question 7

Define the term order of a reaction with respect to a given product.

Answer 7

The power to which a species’ concentration is raised in the rate equation.

Question 8

Define the term overall order of reaction.

Answer 8

The sum of the orders of reaction of all species in the rate expression e.g. (from earlier), total order = x + y

Question 9

How would you calculate the units of the rate constant?

Answer 9

Units of rate are moldm-3s -1 and units of concentration are mol dm-3 Rearrange rate equation to get k= Sub in units and cancel them out

Question 10

How could you find the rate expression using the initial rate method?

Answer 10

Do a series of experiments, during which you vary concentrations, so the concentration of just one reactant changes each time.

Plot a graph of concentration against time for each reactant and use a tangent at t=0 to find the initial rate of reaction.

Compare rates and concentrations between each experiment to find order of reactants and overall rate equation

Question 11

What must you add to react with the I2 as it is produced for an iodine clock reaction? (equation)

Answer 11

Known moles of sodium thiosulfate and a little
starch; Reacts with I2 in 1:2 ratio
I2 + 2S2O3^2- → S4O6^2- + 2I

Question 12

When does the starch turn a blue-black colour in an

iodine clock reaction and why?

Answer 12

When all of the Na2S2O3 has been used up and so I2 is produced, which reacts with starch, leading to a blue black colour

Question 13

How can you calculate the rate of reaction from the data from an iodine clock reaction?

Answer 13

Record time taken for colour change to occur. Use rate = 1/t. This is effectively the initial rate.

Question 14

How can you convert the Arrhenius equation into a

useful form for plotting a graph?

Answer 14

ln k= -Ea/RT + ln A
Graph of lnk against 1/T is a straight line:
gradient = -EA/R and y intercept is lnA

Question 15

What is the rate determining step?

Answer 15

The slowest step in a reaction mechanism, which

determines the overall rate of reaction

Question 16

How does the rate determining step link to the species involved in the rate expression?

Answer 16

Any species involved in the rate determining step appear in the rate expression. Species only involved after the rate determining step do not appear in the rate expression.