Review Practice Problems 1 problem

PART QUESTION 1:

1) Which of the following formulae represents an alkene that can have
cis or trans isomers?

a) CH2CH2 b) CH2CHCH3 c) (CH3)2CCHCH3 d) CH3CHCHCH3

The acidity of carboxylic acid functional groups is best explained by
which of the following statements?

Oxygen-hydrogen bonds are inherently weak.

They oxygen-hydrogen bond is polarized.

The negative charge is created by proton removal is delocalized over
several atoms.

The positive charge of the removed proton is stabilized by the nearby
anion.

Which of the following functional groups does not contain an sp2
hybridized carbon?

aldehyde

alcohol

alkene

ketone

Which of the following are structural isomers of one another?

1. //\/ 2. /\\/ 3. \/\\ 4. /=\

a) 1 and 3 b) 2 and 4 c) 1and 4 d) none of the above

PART QUESTION 2:

2) a) Sketch the galvanic cell based on the following two
half-reactions. Indicate (i) the balanced cell reaction, (ii) Eo for
the cell, (iii) which electrode is the anode and which the cathode, (iv)
the direction of electron flow.

Au3+ (aq) + 3e- ( Au (s); Eo = 1.40 V

Cu2+ (aq) + 2e- ( Cu (s); Eo = 0.34 V

b) Calculate the standard free energy change, deltaGo, and the
equilibrium constant, Keq, for the cell above.

c) If the [Au+] concentration is 1.0M, what concentration of Cu2+ would
result in a cell potential of 1.13 V?

3) a) Use the tables of data below to determine the standard enthalpy,
entropy and free energy reaction for the following process.

2H2S (g) + SO2 (g) ( 3S (s) + 2H2O (g)

Substance deltaHfo (kJ/mol)
So (J K-1 mol-1)

H2O (g) -241.8
188.7

H2S (g) -21.0
206.0

S (s) 0.0
32.1

SO2 (g) -296.8
248.2

b) The reaction in part (a) is spontaneous at some temperature and
non-spontaneous at others. Will it be more or less spontaneous at
higher temperatures?

c) At what temperatures (that is, above or below a certain cut-off
point) will the reaction in part (a) be spontaneous?

4) a) State the three laws of thermodynamics, algebraically and in
prose:

First Law:

Second Law:



Third Law (prose only):

b) Define entropy. Invoke both statistical and macroscopic definitions,
and briefly explain how the two are related to one another.

5) Consider a 100-mL sample of 0.100M NH3 (Kb = 1.75 x 10-5)

a) Calculate the pH of this solution.

b) How many mL of 0.200 M HCl would be required to titrate this sample
to the equivalence point?

c) What is/are the major species in solution when 25.0 mL of HCl have
been added?

d) What is the pH of the solution when 25.0 mL of HCl have been added?

e) What is/are the major species in solution at the equivalence point?

f) At the equivalence point, will the pH be less than, equal to, or
greater than 7.00? Why?

6) a) Which of the acids listed below would be the best choice as the
basis for a buffer with a pH of 2.87? Why?

Acetic acid, CH3CO2H, Ka = 1.76 x 10-5

Bromoacetic acid, BrCH2CO2H, Ka = 2.0 x 10-3

Chloroacetic acid, ClCH2CO2H, Ka = 1.4 x 10-3

Fluoroacetic acid, FCH2CO2H, Ka = 2.6 x 10-3

Iodoacetic acid, ICH2CO2H, Ka = 7.6 x 10-4

b) What concentrations of the acid you chose in part a, and its
conjugate base, would be required to make a buffer with a pH of 3.00,
with a total concentration of acid and base equal to 1.00 M?

7) The concentration of Mg2+ in sea water is 0.052 M. When solid sodium
hydroxide is added to sea water, a precipitate of Mg (OH)2 eventually
forms. (Ksp for Mg(OH)2 = 8.9 x 10-12)

a) What is the highest concentration of hydroxide ion that can be added
before [Mg2+] begins to precipitate? (That is, what concentration of
hydroxide ion will maintain equilibrium with Mg2+ in a sample of
seawater?)

b) Based on your calculation in (a), at what pH will [Mg2+] begin to
precipitate?

c) At what pH will [Mg2+] be reduced to 1% of its original value (ie.,
,to 0.0052 M) ? (Hint : Solve for [OH-] first.)

PART QUESTION 3:

8) Two reaction mechanisms are proposed for the reaction between
(CH3)3CBr and OH-. The reaction may take place in a single, irreversible
step (Mechanism 1),

k1

(CH3)3CBr + OH- ( (CH3)3COH + Br-

or, the reaction may take place in two sequential steps (Mechanism 2).

k2

(CH3)3CBr ( (CH3)3C+ + Br-

(

k-2

k3

(CH3)3C+ + OH- ( (CH3)3COH

In answering the questions that follow, let the reaction rate be defined
as the rate of production of product, (d[(CH3)3COH])/(dt)

State the rate law for Mechanism 1.

Use the fast-equilibrium assumption (that is, assume that the k2/k-2
step is fast in both directions, compared to the k3 step) to derive a
rate law for Mechanism 2.

If the addition of bromide ion is observed to reduce the rate of
reaction, which of the two proposed mechanisms is most likely to be
true.