Rate Laws And Arrhenius

Question 1

How do thermodynamics and kinetics differ?

Answer 1

Thermo compares free energy of reactants and products, calculating the driving force IF a transformation occurs. Timescale not considered

Kinetics provide information on how a transformation occurs and on what time scale

Question 2

How do you work out the rate equation?

Answer 2

Has to be found experimentally, NOT given by the stoichiometric coefficients - unless elementary.

Cannot be found by saying the number of molecules and working it out from that

Question 3

What is the Isolation method?

Answer 3

If a reaction goes A + B —> P

And B is in vast excess, it can be said that [B]t is constant. ([B]o = [B]t)

This rate equation is then said to be pseudo-first order

Question 4

What is the initial rate method?

Answer 4

Where the initial rate is measured of a reaction, changing the initial concentration of one reactant to see what effect that has on the initial rate.

Complication; the concentrations and rate of reaction all change with time

Question 5

What is the integrate rate law for a 0th order reaction?

Answer 5

[R] = [R]o - kt

Question 6

What is the integrate rate law for a 1st order reaction?

Answer 6

[R] = [R]o exp(-kt)

Question 7

What is the integrated rate law for a 2nd order reaction?

Answer 7

1/[R] - 1/[R]o = kt

Question 8

How do you establish if a reaction is elementary?

Answer 8

By experimentally determining the reaction mechanism

Question 9

How do you find the order of an elementary reaction?

Answer 9

By the stoichiometry, this is not contradictory as one needs to do experiments to see if a reaction is elementary or not

Even if the order does match the stoichiometry, doesn’t mean the reaction is necessarily elementary

Question 10

If the initial rate of a reaction is v = k’[A]o^n, what is the linearised form?

Answer 10

Log v = log k’ + nlog [A]o

Plot log v against log [A]o

The gradient = n

Question 11

What is the Arrhenius equation?

Answer 11

Question 12

What does the Ea/RT of the Arrhenius equation signify?

Answer 12

It is the fraction of encounters (A+B) that have sufficient energy to react

Question 13

How does temperature affect a small Ea?

Answer 13

A small Ea is HIGHLY temperature dependent

Question 14

What does the pre-exponential factor A consider?

Answer 14

Collision frequency and orientation term

Individual for each reaction

Question 15

What is the half life of a zeroth order reaction?

Answer 15

t = [R]o / 2k

Question 16

What is the half life of a first order reaction?

Answer 16

t = ln2 / k

Question 17

What is the half life of a second order reaction?

Answer 17

t = 1 / k[R]o

Question 18

What is the x axis when plotting the Arrhenius equation?

Answer 18

x = 1 / T

TIME DEPENDENT

Question 19

How do you obtain A graphically?

Answer 19

If on computer, it is the intercept.

If on paper, cannot extrapolate to y axis so obtain A from one data point - best to find from multiple points and give the mean value, with standard error, etc.

Question 20

What is the gradient when the Arrhenius equation is plotted graphically?

Answer 20

m = -Ea/R

Question 21

What is the rate of removal of R for a zeroth order reaction?

Answer 21

v = - d[R]/dt = k[R]^0 = k

Question 22

How do you find the integrated rate equation for a zeroth order reaction?

Answer 22

Rewrite v = - d[R]/dt = k[R]^0 = k as d[R] = -kdt

Integrate d[R] = -kdt to get:

[R]t = [R]o - kt

Question 23

What is the gradient of an integrated zeroth order reaction?

Answer 23

Gradient = -k

As [R]t = [R]o - kt

Question 24

What is the rate of removal of R for a first order reaction?

Answer 24

v = -d[R]/dt = k[R]^1

Question 25

How do you find the integrated rate equation for a first order reaction?

Answer 25

Rearrange v = -d[R]/dt = k[R]^1

To get: d[R]/[R] = -kdt

Integrate from t=0 to time t.

Question 26

What is the intercept and gradient for an integrated first order rate equation?

Answer 26

Plot of ln[R] vs t is linear with gradient -k and intercept ln[R]o

Question 27

Is the shape of a 1st order graph dependent of the initial concentration of R?

Answer 27

NO, it is independent of the initial concentration

Question 28

What is the rate of removal of A in a second order reaction?

Answer 28

v = -d[A]/dt = k[A]^2

Question 29

How do you find the integrated rate equation of a second order reaction?

Answer 29

Question 30

What is the intercept and gradient for an integrated second order rate equation?

Answer 30

The plot of 1/[A]t vs t is linear with gradient k and intercept 1/[A]o

Question 31

Is the shape of a 2nd order graph dependent of the initial concentration?

Answer 31

Yes, it does depend on the initial concentration

Question 32

What is the equation for the half-life of a zeroth order reaction?

Answer 32

Question 33

What is the equation for the half-life of a first order reaction?

Answer 33

Question 34

Is the half-life f 0th, 1st and 2nd order reactions dependent or independent of the initial concentration?

Answer 34

0th = dependent on [R]o

1st = independent of [R]o

2nd = dependent on [R]o

Question 35

What is the equation for ‘Lifetime’ and when is it applicable?

Answer 35

Question 36

What is the equation for the half-life of a second order reaction?

Answer 36