Chem-102-071-Final

Name: __________________________ Date: _____________

Give, from left to right, the oxidation number of the central metal atom for
the following coordination compounds.

K₃[Fe(CN)₆], [Cr(NH₃)₄Br₂]Br, [Ni(H₂O)₆]Cl₂, Na₂[TaF₇]

A.	3, 3, 3, 5

B.	3, 3, 2, 7

C.	–3, 3, 2, 5

D.	–3, 1, 2, 5

E.	3, 3, 2, 5

Which of the following coordination compounds will form a precipitate
when treated with an aqueous solution of AgNO₃?

A.	[Cr(NH₃)₃Cl₃]

B.	[Cr(NH₃)₆]Cl₃

C.	None of the compounds in the other choices.

D.	Na₃[Cr(CN)₆]

E.	Na₃[CrCl₆]

Which of the following complexes shows geometric isomerism?

A.	[Co(NH₃)₅Cl]SO₄

B.	[Co(NH₃)₆]Cl₃

C.	[Co(NH₃)₅Cl]Cl₂

D.	K[Co(NH₃)₂Cl₄]

E.	none of the complexes given in the other choices

The number of geometric and optical isomers for the complex ion [Co(en)₂Cl₂]⁺is:

Geometric Optical

2 2

0 2

2 0

3 2

2 3

According to crystal field theory, how many unpaired electrons are present in
the complex ion [Fe(H₂O)₆]³⁺? The water molecules are weak field ligands.

What are the respective names of K₃[Fe(CN)₆] and [Cr(NH₃)₄Br₂]Br ?
(The correct choice has both names given correctly)

A.	Potassium hexacyano iron(III); Tetraamminedibromochromium(III) bromide

B.	Potassium hexacyano ferrate(III); Triamminedibromochromium(III) bromide

C.	Potassium hexacyano ferrate(I); Tetraammoniadibromochromium(II) bromide

D.	Hexacyano iron(III) potassium; Tetraammoniumdibromochromium(II) bromide

E.	Potassium hexacyano ferrate(III); Tetraamminedibromochromium(III) bromide

The central atom in Hemoglobin is:

Co³⁺

Mg²⁺

Fe²⁺

Sc³⁺

Zn²⁺

Which of the following is paramagnetic?
(NH_{3 ,}ethylenenediammine (en) and CN^–are all strong-field ligands)

A.	[Zn(H₂O)₆]²⁺

B.	[Co(NH₃)₆]³⁺

C.	[Fe(CN)₆]^4–

D.	[Mn(CN)₆]^2–

E.	[Co(en)₃]³⁺

Which of the following elements produces strong steel when added
to iron in the correct amount?

copper

B.	phosphorous

sulfur

carbon

zinc

10.

Name the following:

n-heptane

B.	2-methyl-2-ethylbutane

C.	3,3-dimethylpentane

D.	2,2-diethylpropane

E.	2-ethyl-2-methylbutane

11.

Which of the following types of compounds must have an
sp²-hybridized carbon center?

ethers

ketones

alcohols

alkanes

amines

12.

Which of the following choices are correct for chloropropene?

No. of Structural isomers No. of Geometric isomers

3 2

2 3

3 0

0 4

2 1

13.

Which of the following has an optical isomer?

E.	none of the other choices.

14.

Which of the following pairs of substances can form a polyester?

A.	H₂C=CHCH₃ + HOCH₂CH₂COOH

B.	HO(CH₂)₄COOH + HOCH₂CH=CHCH₃

C.	H₂C=CHCN + H₂C=CHCH₃

D.	HOCH₂CH₂OH + HOOCCOOH

E.	H₂NCH₂COOH + H₂NCH₂CH₂COOH

15.

Which is a possible product of the chlorination of butane in the presence of light?

C₄H₉Cl

C₄H₈Cl

C₄H₁₀Cl₂

C₄H₆Cl₂

C₄H₉Cl₂

16.

When C₄H₈ is treated with water and H₂SO₄ a tertiary alcohol is produced.
Which of the following structures could represent C₄H₈ in this reaction?

A.	CH₃CH = CHCH₃

B.	CH₃CH₂CH = CH₂

D.	CH₃CH₂CH₂CH₃

E.	none of the other choices

17.

Name the following compound:

A.	2-chloro-3-ethyl-1-isopropylbutanone

B.	isopropyl-chloro,methylbutyl ketone

C.	2-butyl,chloro,isobutanoyl methane

D.	4-chloro-2,5-dimethyl-3-heptanone

E.	3-methyl-4-chloro-1-isopropylpentanone

18.

Oxidation of 2-propanol will produce

A.	an aldehyde.

an amine.

C.	an alkene.

a ketone.

E.	a carboxylic acid.

19.

Which of the following oxides is amphoteric?

BeO

MgO

CaO

SrO

BaO

20.

The hydride formed when a transition metal crystal is treated with hydrogen gas is:

A.	A covalent hydride

B.	An interstitial hydride

C.	An active hydride

D.	A saltlike hydride

E.	An ionic hydride

21.

Which, among the following elements, is most metallic?

22.

Which Group 5A element cannot form molecules with five covalent bonds?

23.

Which of the following statements is not correct?

A.	The molecule is paramagnetic.

B.	The bond energy of is greater than the bond energy of .

C.	The oxidation state of the sulfur atom in is.

D.	The bond strength of is greater than that of .

E.	is a weaker acid than .

24.

The initial rate data given below have been determined at a certain temperature
for the reaction

2NO (g) + 2H₂(g) → N₂ (g) + 2H₂O (g)

[NO]₀	[H₂]₀	Initial Rate (M/s)
0.10	0.20	0.0150
0.10	0.30	0.0225
0.20	0.20	0.0600

The rate constant (in the appropriate unit) is:

7.5

B.	3.0 × 10^–3

380

0.75

E.	3.0 × 10^–4

25.

The reaction

2A + B → C

has the following proposed mechanism:

Step 1: A + B

D (fast equilibrium)

Step 2: D + B → E

Step 3: E + A → C + B

If step 2 is the rate-determining step, then the rate of formation of C should equal:

k[A]

k[A]²[B]

k[A]²[B]²

k[A][B]

k[A][B]²

26.

Given the following potential energy diagram for the reaction

which of the following statements is correct?

A.	A is the enthalpy change for the reaction.

B.	The reaction is endothermic.

C.	B is the activation energy.

D.	B is the enthalpy change for the reaction.

E.	C is the enthalpy change for the reaction.

27.

The autoionization of water

H₂O (liq) ⇌ H+ (aq) + OH- (aq)

is endothermic. Which of the following is correct for water
heated to above 25

A.	K_w= 1 x 10 ^-14

B.	[H ⁺] > [OH ^-]

C.	[OH ^-] > [H ⁺]

D.	K_w> 1 x 10 ^-14

E.	K_w< 1 x 10 ^-14

28.

Which of the following changes will shift the following chemical equilibrium
N₂(g) + 3H₂(g)

2NH₃(g) ;

,
to the right?

I.		increasing the temperature
II.		decreasing the temperature
III.		increasing the volume
IV.		decreasing the volume
V.		removing some NH₃
VI.		adding some NH₃
VII.		removing some N₂

VIII.

adding some N₂

A.	I, IV, VI, VII

B.	II, III, V, VIII

C.	I, VI, VIII

D.	I, III, V, VII

E.	II, IV, V, VIII

29.

The equilibrium constant for the reaction

2A (g)

2B (g) + C (g)

is 1.33 × 10^–6. If Initially 3 moles of A are placed in a 1.5-L flask
the concentration of C at equilibrium.would be :

0.011 M

0.022 M

0.033 M

0.014 M

0.0069 M

30.

Acetic acid, (HC₂H₃O₂) is a weak acid (Ka = 1.8

10^-5). Calculate the pH
of a 17.0 M HC₂H₃O₂ solution.

1.25

3.49

1.76

1.25

12.5

31.

Calculate the pH of the following aqueous solution:

0.2 M NH₄Cl (pK_b for NH₃ = 4.74)

9.02

4.98

9.96

4.04

2.37

32.

The K_sp of Al(OH)₃ is 2

10^-32. At what pH will a 0.9 M Al³⁺ solution begin
to show precipitation of Al(OH)₃?

3.4

10.6

1.0

5.9

2.5

33.

A certain indicator HIn has a pK_a of 9.00 and a color change becomes visible
when 7.00 % of it is In

. At what pH is this color change visible?

10.2

3.88

6.15

7.85

7.05

34.

Consider the dissociation of hydrogen:

H₂(g)

2H(g)

One would expect that this reaction:

A.	will be spontaneous at any temperature.

B.	will be spontaneous at high temperatures.

C.	will be spontaneous at low temperatures.

D.	will not be spontaneous at any temperature.

E.	will never happen.

35.

Consider the reaction

at 25^oC for which the following data are relevant:


	11.29 kJ/mol	355.29 J/K mol
	33.15 kJ/mol	239.90 J/K mol
	?	204.80 J/K mol

The reaction is allowed to proceed until all substances involved have reached their equilibrium concentrations. Under those conditions, what is

for the reaction?

A.	- 1.35 x 10⁵ kJ

98.7 kJ

- 25.2 kJ

135 kJ

36.

Calculate E at 25

for the galvanic cell

Cr(s) | Cr³⁺(0.2 M) || Br₂(0.5 M), Br^-(0.1 M) |Pt(s)

given the standard reduction potentials,

= -0.727 V

= +1.090 V

1.753 V

1.817 V

1.831 V

1.881 V

1.201 V

37.

The reaction,

takes place in a car battery. To start the car a current of 125 amperes is
drawn for 20.5 seconds. How many grams of Pb would be consumed in
this process. (The atomic mass of Pb is 207.19)

5.50 g

2.75 g

C.	6.55 x 10 ^-3 g

D.	1.76 x 10 ^-4 g

E.	1.33 x 10^-2 g

38.

What is the nuclear binding energy in joules/ nucleon in a

nucleus
given the data below,

species	nucleus	proton ()	neutron ()
mass in amu	24.985839	1.007825	1.008665

and given that 1 amu = 1.660577881 x 10 ^-27kg ?

A.	0.22076 J/nucleon

B.	3.30 × 10–¹¹ J/nucleon

C.	1.32 × 10–¹² J/nucleon

D.	0.999 J/nucleon

E.	2.75 × 10–¹² J/nucleon

39.

The half-life of ⁹⁰Sr is 29 years. What fraction of the atoms in a sample of ⁹⁰Sr would remain 175 years later?

0.17

0.12

0.062

0.015

0.50

40.

Neutron capture by

U followed by two successive beta decays gives:

KING FAHD UNIVERSITY OF PETROLEUM AND MINERALS
CHEMISTRY DEPARTMENT
CHEM-102-071-FINAL EXAM

TEST CODE NUMBER 000

STUDENT NUMBER: _____________________________
NAME : _____________________________
SECTION NUMBER: _____________________________

INSTRUCTIONS

1.	Write your student number, name, and section number on the EXAM COVER page.
2.	Write your student number, section number, and your name on your EXAM ANSWER FORM.
3.	Bubble in pencil your student number and your section number on the EXAM ANSWER FORM.
4.	Bubble in pencil on your EXAM ANSWER FORM the correct answer to each of the questions. . You must not give more than ONE answer per question.
5.	At the end of the exam return the EXAM ANSWER FORM to the proctor.
6.	The exam contains 40 multiple choice questions and the time allowed is 160 min (2 hrs and 20 min). Time will be announced after 80 minutes and again 10 minutes before the end of the exam.

Important constants

Gas Constant (R)	= 0.0821 = 8.31 = 8.31 x 10⁷	L.atm/(mol.K) J/(mol.K) g.cm²/(sec².mol.K)
Planck’s Constant (h)	= 6.626 x 10^-34 = 6.626 x 10^-34	J.sec/particle kg.m²/(sec.particle)
Velocity of light (c)	= 2.998 x 10⁸	m/sec
Avogadro’s number (N)	= 6.022 x 10²³	particles/mole
Bohr’s Constant (R_H)	= 2.179 x 10^-18	J/particle
Faraday (F)	= 96485	Coulombs
Specific heat of H₂O	= 4.18	J/(g.^oC)

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