316 ❯ STEP 5. Build Your Test-Taking Confidence- A student constructs an electrolysis cell with two
inert electrodes in an aqueous solution that is
1.0 M in rubidium nitrite, RbNO 2 , and 1.0 M in
rubidium hydroxide, RbOH. As the cell operates,
an odorless gas evolves from one electrode and a
gas with a distinctive odor evolves from the other
electrode. Choose the correct statement from the
following list.
(A) The odorless gas is oxygen.
(B) The odorless gas is the result of reduction.
(C) The gas with the distinctive odor is the
result of oxidation.
(D) The odorless gas evolves at the negative
electrode. - There is a galvanic cell involving a lead, Pb,
electrode in a 1.0 M lead(II) nitrate, Pb(NO 3 ) 2 ,
solution and a chromium, Cr, electrode in a
1.0 M chromium(II) sulfate, CrSO 4 , solution.
What is the cell potential?
(A) +0.78 V
(B) -0.78 V
(C) +1.04 V
(D) 0.00 V - A student attempted to prepare an electrolysis
cell to produce aluminum metal (Al) from an
aqueous solution of aluminum chloride, AlCl 3 ,
using a 6.0 V battery. The cathode compartment
of the electrolysis contained 1.0 M aluminum
chloride. The student was unsuccessful. Why was
the student unable to produce aluminum metal?
(A) The voltage from the battery was insuffi-
cient to force the reaction to occur.
(B) Reduction of chloride ion occurred in pref-
erence to reduction of calcium ion.
(C) Calcium chloride solutions do not conduct
electricity.
(D) Reduction of water occurred in preference
to reduction of calcium ion. - Which of the substances in the table would be
capable of reducing the aluminum ions in solid
aluminum fluoride, AlF 3 , to aluminum metal?
Assume the cell potentials in the table also apply
to the solid state.
(A) Cr(s)
(B) Rb(s)
(C) F 2 (g)
(D) None
36. A student constructs a galvanic cell that has a
chromium, Cr, electrode in a compartment con-
taining a 1.0 M chromium(II) nitrate, Cr(NO 3 ) 2 ,
solution and a silver, Ag, electrode in a compart-
ment containing 1.0 M silver nitrate, AgNO 3 ,
solution. A salt bridge containing a 1.0 M
potassium chloride, KCl, solution connects the
two compartments. When the student mea-
sures the cell potential, the value is far from the
ideal predicted value. What is the cause of this
discrepancy?
(A) The initial concentrations should have been
lower than 1.0 M.
(B) The initial concentrations should have been
higher than 1.0 M.
(C) The potassium chloride in the salt bridge
interfered with the reaction.
(D) The student did not allow the cell to come
to equilibrium.
Use the information on the acids in the following
diagram to answer questions 37-38.Benzoic Acid
Ka 6.2 × 10–5
pKa 4.21Chloroacetic Acid
14 × 10–3
2.86Formic Acid
1.8 × 10–4
3.75HH CClHCOO HH COOHHC
CCCHHC COOHHC- Sample solutions of each of the three acids were
titrated with 0.10 M sodium hydroxide, NaOH.
Each of the acid solutions had a concentration
of 0.10 M. Which of the acid titrations had the
highest pH at the endpoint?
(A) Formic acid
(B) Benzoic acid
(C) Chloroacetic acid
(D) They all had a pH of 7 at the endpoint.
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