Chapter 14 - Chemical Kinetics

Question 1

What is studied in chemical kinetics?

Answer 1

the rate (or speed) at which a chemical process occurs

Question 2

Define reaction mechanism.

Answer 2

a molecular-level view of the path from reactants to products

Question 3

List four factors that affect reaction rates.

Answer 3

1. Physical state of the reactants.
2. Reactant concentrations.
3. Reaction temperature.
4. Presence of a catalyst.

Question 4

The more readily the reactants collide, the more (rapidly/slowly) they react.

Answer 4

rapidly

Question 5

Homogeneous reactions are often (faster/slower).

Answer 5

faster

Question 6

Heterogeneous reactions that involve solids are faster if the surface area is (increased/decreased).

Answer 6

increased

Question 7

Increases reactant concentration generally (increases/decreases) reaction rate.

Answer 7

increases

Question 8

Why does increasing reaction concentration generally increase reaction rate?

Answer 8

Since there are more molecules, more collisions occur.

Question 9

Reaction rate generally (increases/decreases) with increased temperature.

Answer 9

increases

Question 10

_____ energy of molecules is related to temperature.

Answer 10

kinetic

Question 11

At (higher/lower) temperatures, molecules move more quickly, (increasing/decreasing) numbers of collisions and the energy of the molecules possesses during the collisions.

Answer 11

higher, increasing

Question 12

Catalysts affect rate (while/without) being in the overall balanced equation.

Answer 12

without

Question 13

Catalysts affect the __________, changing the individual reactions that are part of the pathway from reactants to products.

Answer 13

kinds of collisions

Question 14

Define rate.

Answer 14

a change in concentration over a time period Δ[ ]/Δt

Question 15

Define Δ in the statement Δ[ ]/Δt.

Answer 15

change in

Question 16

Define [ ] in the statement Δ[ ]/Δt.

Answer 16

molar concentration

Question 17

Define t in the statement Δ[ ]/Δt.

Answer 17

time

Question 18

List three types of rate measured.

Answer 18

1. Average rate.
2. Instantaneous rate.
3. Initial rate.

Question 19

How is the rate of a reaction measured?

Answer 19

using the concentration of a reactant or a product over time

Question 20

How is a plot graph of reaction rate data useful?

Answer 20

it gives more information about the rate

Question 21

What does the slope of the curve at one point in time on a rate data graph tell us?

Answer 21

the instantaneous rate

Question 22

Define initial rate.

Answer 22

the instantaneous rate at time zero on a rate data graph

Question 23

How do we determine what effect the concentration of each reactant has on the rate of the reaction?

Answer 23

We keep every concentration constant except for one reactant and see what happens to the rate. Then we change a different reactant. We do this until we have seen each reactant has affected the rate.

Question 24

Define rate law as stated by the equation rate= k[A]^x[B]^y.

Answer 24

a statement of the relationship between rate and concentration for all reactions

Question 25

Define k in the statement rate=k[A]^x[B]^y.

Answer 25

the rate constant

Question 26

What is the rate constant dependent on?

Answer 26

temperature

Question 27

Define the exponents in the statement rate=k[A]^x[B]^y.

Answer 27

the order of the reaction with respect to each reactant

Question 28

How is the overall reaction’s order determined?

Answer 28

by adding up all of the reactants’ orders

Question 29

Define [A] and [B] in the statement rate=k[A]^x[B]^y.

Answer 29

the reaction rates of reactants [A] and [B]

Question 30

Define first order reactions.

Answer 30

reaction rates that depend only on one reactant to the first power

Question 31

What is the rate law for a first order reaction?

Answer 31

rate=k[A]

Question 32

How is k related to [A] in a first order reaction?

Answer 32

rate = k [A]
rate = −Δ [A] / Δt
So:  k [A]  = −Δ [A] / Δt
Rearrange to:  Δ [A] / [A]  =  − k Δt
Integrate:  ln ([A] / [A]o)  =  − k t
Rearrange:  ln [A]  =  − k t  +  ln [A]o

Question 33

How does a plot of ln [A] vs t appear?

Answer 33

linear

Question 34

How can a rate constant be found from a plot of ln [A] vs. t?

Answer 34

When the integrated rate law, ln [A] = − k t + ln [A]o, is plotted as a line, its slope will equal -k.

Question 35

Define half life.

Answer 35

the amount of time it takes for one half of a reactant to be used up in a chemical reaction

Question 36

How is half-life calculated in a first order reaction?

Answer 36

ln [A]  =  − k t  +  ln [A]o 
ln ([A]o/2)  =  − k t½  + ln [A]o 
− ln ([A]o/2)  +  ln [A]o  =  k t½
ln ([A]o / [A]o/2)  =  k t½ 
ln 2  = k t½   or t½ = 0.693/k

Question 37

Define second order reaction.

Answer 37

a reaction rate that depends only on a reactant to the second power

Question 38

What is the rate law for a second order reaction?

Answer 38

rate=k[A]^2

Question 39

How is k related to [A] for a second order reaction?

Answer 39

rate = k [A]^2 
rate = − Δ [A] / Δ t
So, k [A]2 = − Δ [A] / Δ t
Rearranging:  Δ [A] / [A]2  =  − k  Δ t
Using calculus:  1/[A] = 1/[A]o + k t

Question 40

How is half-life derived in a second order reaction?

Answer 40

Using the integrated rate law, we can see how half-life is derived:
1/[A] = 1/[A]o + k t
1/([A]o/2)  =  1/[A]o + k t½
2/[A]o −1/[A]o  =  k t½ 
t½  =  1 / (k [A]o)

Question 41

Half-life is a ____________ dependent quantity for second order reactions.

Answer 41

concentration

Question 42

Define zero order reaction.

Answer 42

a reaction in which the reaction rate is independent of the concentration of the reactant

Question 43

Zero order reactions are _________ in concentration.

Answer 43

linear

Question 44

The rate constant is temperature dependent; it (increases/decreases) as temperature increases.

Answer 44

increases

Question 45

Rate constant _____ (approximately) with every 10 C temperature increase.

Answer 45

doubles

Question 46

The collision model is based on the _________ theory.

Answer 46

kinetic molecular

Question 47

Molecules must _____ to react.

Answer 47

collide

Question 48

If there are more ______, more ______ can occur. If there are _____ molecules, the __________ is faster.

Answer 48

collisions, reactions

more, reaction rate

Question 49

If the temperature is higher, molecules move _______, causing more collisions and a ____________ of reaction.

Answer 49

faster, higher rate

Question 50

What occurs in a chemical reaction?

Answer 50

bonds are broken and new bonds are formed

Question 51

Molecules can only react ___________.

Answer 51

if they collide with each other

Question 52

Can molecules collide without forming products?

Answer 52

yes

Question 53

Define activation energy.

Answer 53

the minimum energy needed for a reaction to take place

Question 54

What must be overcome for a reaction to take place?

Answer 54

an energy barrier

Question 55

Reactants gain ______ as the reaction proceeds until the particles reach the _______________.

Answer 55

energy, maximum energy state

Question 56

Define transition state.

Answer 56

the organization of the atoms at the maximum energy state

Question 57

Name another term for transition state.

Answer 57

activated complex

Question 58

What is the energy needed to form a transition state?

Answer 58

activation energy

Question 59

Reactions can be _____ or _____ after the transition state is formed.

Answer 59

endothermic, exothermic

Question 60

Gases have an average temperature, but each individual molecule has ________.

Answer 60

its own energy

Question 61

At __________, more molecules possess the energy needed for the reaction to occur.

Answer 61

higher energies

Question 62

Define the Arrhenius equation.

Answer 62

the relationship between activation energy as temperature stated as k = Ae−Ea/RT

Question 63

How can activated energy be determined graphically using the Arrhenius equation?

Answer 63

by reorganizing the equation ln k = −Ea/RT + ln A

Question 64

Define reaction mechanism.

Answer 64

a series of stepwise reactions that show how reactants become products

Question 65

What are the individual steps of a reaction mechanism called?

Answer 65

an elementary reaction or elementary process

Question 66

Define molecularity.

Answer 66

tells how many molecules are involved in that step of the mechanism

Question 67

Nearly all reaction mechanisms use only ___________.

Answer 67

unimolecular or bimolecular reactions

Question 68

Termolecular reactions are ________.

Answer 68

rare, if they occur at all

Question 69

Define rate-determining state.

Answer 69

the slowest reaction in the reaction mechanism

Question 70

What is required of a plausible reaction mechanism?

Answer 70

The rate law must be able to be devised from the rate-determining step.
The stoichiometry must be obtained when all steps are added up.
Each step must balance, like any equation.
All intermediates are made and used up.
Any catalyst is used and regenerated.

Question 71

Define catalyst?

Answer 71

a component which increases the rate of a reaction by decreasing the activation energy of the reaction

Question 72

Catalysts _________.

Answer 72

change the mechanism by which the process occurs

Question 73

List three types of catalysts.

Answer 73

1. Homogeneous catalysts
2. Heterogeneous catalysts
3. Enzymes

Question 74

Define homogeneous catalyst.

Answer 74

a catalyst in the same phase as the reactant

Question 75

How are many homogeneous catalysts seen?

Answer 75

dissolved in the same solvent as the reactant

Question 76

Define heterogeneous catalyst.

Answer 76

a catalyst in a different phase then the reactant

Question 77

What is frequently the rate determining step in reactions involving heterogeneous catalysts?

Answer 77

the adsorption of the reactants

Question 78

Define enzymes.

Answer 78

biological catalysts

Question 79

Define active site.

Answer 79

a region on an enzyme where the reactants attach

Question 80

Define substrates.

Answer 80

the reactants affected by an enzyme

Question 81

Define the enzyme-substrate model.

Answer 81

in the enzyme-substrate model the substrate fits into the active site of an enzyme much like a key fits into a lock