8.1 reaction rate

REACTION KINETICS
8.1 REACTION RATE
LEARNING OUTCOMES:
• Define reaction rate

• Explain the graph of concentration against time in
relation to reaction rate
• Write differential rate equation
• Determine the reaction rate based on a differential
equation

What does rate of reaction mean?

The speed of different chemical reactions . Some reactions
are very fast and others are very slow.

The speed of a reaction is called the rate of the reaction.
What is the rate of these reactions?
rusting

slow

baking

fast

explosion

very fast

A

B

?
rate = -

?
rate = +

?
[A]
t
[B]

t

?

Reaction rate is speed of chemical reaction which is the
change in the concentration of a reactant or a product
with time.

What is the unit for reaction rate?
kg

mol

nm

dm-3

L-1

Ms-1

mol L-1s-1
oC

molal

mol

s-1
mol dm-3 s-1

Newton

Kelvin

meter
kJ mol-1

mol L-1min-1
gram

Differential rate equation / Rate expressions
aA+bB
rate =

cC+dD

-1 d[A] = -1 d[B] = +1 d[C]
a dt
b dt
c dt

= +1 d[D]
d dt

Differential Rate Equation Example1:

O3(g) + NO(g)

NO2(g) + O2(g)

d O3
d[NO]
d[ NO 2 ]
d[ O 2 ]
rate = ==+
=+
dt
dt
dt
dt

Differential Rate Equation Example2:

2 NOCl (g)

2 NO + Cl2 (g)

1 d NOCl
1 d[NO]
d[Cl2 ]
rate = =
=+
2
dt
2 dt
dt
2 moles of NOCl disappear for every 1 mole Cl2
formed.
Rate of disappearance of NOCl is twice as fast
as the rate of formation of Cl2

Differential Rate Equation Question 1:
Write the differential rate equation for the following reactions:
(a) I-(aq) + OCl-(aq)

(b) 3O2(g)

(c) 4NH3(g)

Cl-(aq)

+ OI-(aq)

2O3(g)

+ 5O2(g)

4NO(g)

+

6H2O(g)

Differential Rate Equation Challenging Question 1:
Write the rate expression for the following reaction:
(a) N2O5(g)

(b) 2H2O2(aq)
(c) 4NH3 (g) + 5O2 (g)

2NO2(g)

+

2H2O(l) +

½ O2(g)

O2(g)

4NO (g) + 6H2O (l)

Write the differential rate equation in the term of changes in pressure with time

(d) 2NOBr (g)

2NO (g) + Br2 (g)

Differential Rate Equation Example 3:

C2H6(g) + 7O2(g)

4CO2(g) + 6H2O(g)

If the ethane, C2H6 is burning at the rate of 0.20 mol dm-3s-1. Calculate the rate of
formation of CO2

STEP 1: Write the differential rate equation for the
substances that related to the question
d [C 2 H 6]
dt

?

1 d [CO 2]
4
dt

STEP 2: Substitute the given information into the
differential equation
d [CO 2]
dt
d [CO 2]
dt

4(0.20moldm 3s 1 )
0.80moldm 3s

1

Rate of formation
of CO2 is
0.80 moldm-3s-1

C2H6(g) + 7O2(g)

4CO2(g) + 6H2O(g)

formation of CO2

Student common mistakes:
d [C 2 H 6]
dt
1 d [CO 2]
4
dt
d [CO 2]
dt
d [CO 2]
dt
d [CO 2]
dt

1 d [CO 2]
4
dt
d [C 2 H 6]
dt
d [C 2 H 6]
4
dt
4(0.20moldm 3s 1 )
0.80moldm 3s

1

Differential Rate Equation Example 4:

C2H6(g) + 7O2(g)

4CO2(g) + 6H2O(g)

disappearance of O2

STEP 1: Write the differential rate equation for the
substances that related to the question
d [C 2 H 6]
dt

?

1 d [O 2]
7 dt

STEP 2: Substitute the given information into the
differential equation
d [O 2]
7(0.20moldm 3s 1 )
dt
d [O 2]
1.40moldm 3s 1
dt

Rate of
disappearance of O2
is 1.40 moldm-3s-1

C2H6(g) + 7O2(g)

4CO2(g) + 6H2O(g)

disappearance of O2

Student common mistakes:
d [C 2 H 6]
1 d [O 2]
dt
7 dt
1 d [O 2]
d [C 2 H 6]
7 dt
dt
d [O 2]
d [C 2 H 6]
7
dt
dt
d [O 2]
7(0.20moldm 3s 1 )
dt
d [O 2]
dt

1.40moldm 3s

1


N2(g) + 3H2(g)

2NH3(g)

Suppose that at a particular moment during the reaction, molecule of hydrogen is
reacting at the rate of 0.074 Ms-1. Calculate the rate of
(a) formation of ammonia

(b) depletion of nitrogen


4NH3(g)

+ 5O2(g)

4NO(g)

+

6H2O(g)

The rate of disappearance of oxygen is 0.020 moldm-3s-1.
Determine the rate of formation of NO and H2O and also the
rate of disappearance of NH3

For the reaction,

4NH3(g) + 3O2(g)→ 2N2(g) + 6H2O(g)
the nitrogen gas was produced at a rate of 0.72 mol L-1 s-1.
a) Write the differential rate equation for the above reaction.

b) Calculate the rate of
(i) formation of water

(ii) depletion of oxygen

(iii) depletion of ammonia

5Br-(aq) + BrO3-(aq) + 6H+(aq)

3Br2(aq)

+

3H2O(g)

It was found that at a particular instant bromine was being formed at the rate of 0.039
moldm-3s-1. At the instant, at what rate is
(a) Water being formed
ANS: 0.039 mol dm-3 s-1

(b) Bromide ion being oxidized

ANS: 0.065 mol dm-3 s-1

(c) H+ being consumed

ANS: 0.078 mol dm-3 s-1

2A + B

C

+

3D

It was found that at a particular instant reactant A was being disappear at the rate of
6.0 x 10-5 Ms-1. Calculate
(a) The rate of reaction
ANS: 3.0 x 10-5 Ms-1

(b) Rate of formation of D

ANS: 9.0 x 10-5 Ms-1

(c) Rate of disapperance of B

ANS: 3.0 x 10-5 Ms-1

Differential Rate Equation Brain Teasers 1:

4NH3(g) + 5O2(g)→ 4NO(g) + 6H2O(g)
What is the value of the k and m in the following sequence:
k,0.016,0.020,0.016,m

ANSWER:
k = 0.004 , m = 0.024

Differential Rate Equation Revision 1:
Complete the rate expression for the following reaction:

Write the rate expressions for the following reactions in terms of the
disappearance of the reactants and the appearance of the products.

For the reaction A + B → 3C +D the initial rate of formation of C is 0.24 mol L-1 hr-1
a) What is the rate of disappearance of B?

b) What is the rate of formation of D?

For the reaction choose the correct phrase:
R
P
(R-reagents, P-products)
The rate of a chemical reaction is the measure of the rate at which
P _________, which is equal to the rate at which the R _________.
The rate of the reaction is the change in concentration over the
change of time and has units of __________. For the reaction,
reactant R gives product P, the rate is ________ divided by Δ of
_________, where Δ means change.The rate is always___________.
Answers:
is formed
is consumed
mol L-1 s-1
-Δ *R]
time
positive.

8.1 reaction rate

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8.1 reaction rate