CHME 105 - INTRODUCTORY UNIVERSITY CHEMISTRY II
Instructor
Dr. Dusan
Ristic-Petrovic
Office 6-118Q,
City Centre Campus
Telephone 497-4796
Email chem10x@yahoo.com
Web Page http://www.chemed.ca/
Important
Dates Jan
7/8 1st Day of Class, Section
451/400
Jan 13 Chem 103 Labs Begin
Jan 13 Last day for program changes (drop/add courses)
Feb 4/5 Midterm
1
Feb 17-21 Reading Week – no classes
Mar 4/5 Midterm 2
Mar 21 Last Day to withdraw without
academic penalty
April 10 Laboratory Exam (evening)
TBA Final Exam (gymnasium)
Lectures
Section
451: Tues/Thurs 1400-1600 Room 6-232
Section 451:
Weds/Fri 1200-1400 Room 6-133
Office
Hours Mon
0900-1000
Tuesday
1000-1200
Wednesday
1200-1300
Prerequisite Minimum
C- in Chem 101 or Chme 103
(very important)
Textbook General Chemistry, by Petrucci, Harwood
and Herring (8th
Edition) and Solutions Manual
Assignment of Grades |
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Laboratory
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Laboratories
begin the week of Jan 13-17. All students must complete check-in (first lab classs) and watch the safety video before beginning
experiments. The laboratory component is compulsory for credit in CHEM 103.
Attendance is mandatory and no make-up labs are available. If a laboratory
period is missed for a valid reason, this experiment will not be
counted towards the final mark. In all other cases, a mark of zero will be
assigned. A student who misses more than one lab will not receive
credit for the laboratory component. Laboratory work accounts for 20% of the final grade in CHEM 103. |
Laboratory Web Page |
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Laboratory Manual |
Introductory
University Chemistry Laboratory Manual (Chemistry 103 Winter 2003 Ed.)is required as the laboratory textbook. Safety glasses
and a laboratory coat must be worn in the laboratory at all times! (available in the bookstore) Students
showing up to the laboratory without glasses and/or a laboratory coat will be
required to rent these items from the chemical technicians. |
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NOTE: |
Students
must pass the laboratory component (minimum 50%) in order to pass the
course. The maximum mark that can be
obtained if you fail the lab is D+. A
student who has attained less than 55% (C-) in Chem
101 (within the last year) and has credit for the laboratory (> 60%) may
receive credit for the laboratory component of the course at the discretion
of the laboratory coordinator. |
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Objectives |
The
student will: 1) learn
and understand basic concepts of chemistry |
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2) learn
how to solve chemical problems independently |
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3) learn how to handle safely a wide variety of
compounds, some of which are potentially hazardous if used
incorrectly. |
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Lectures |
New
material will be presented during lectures. The textbook is used primarily as
a reference for students and the lectures do not necessarily follow the same
sequence of topics as the text and/or treat topics with the same emphasis as
the text. |
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Grading |
Examination
papers will be marked for content and accuracy. The student is responsible
for any material missed. If a student has an unexcused absence from the
examination the score assigned will be zero. However, in case of illness or
other extreme circumstances, the student may be excused from writing the
examination. All exemption applications must include a medical note (see
below). or
the instructor has to be made aware of the nature of absence and the
surrounding circumstances. In those rare cases where an exemption is actually
granted, the weight allotted to the missed examination will be added to the
weight allotted to the final examination |
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Medical Notes |
The Science Department requires that medical notes from
Doctors must include the following: *the date you were examined *specific dates for the period of the illness *the nature and severity of the illness |
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*doctor’s signature (signatures of office staff on behalf
of the Doctor are not acceptable) |
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At the
end of the term all excuses for missed exams will be given to the Chair of
the Science Department who will have them added to your student file |
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Deferred Exams |
Deferred
exams are granted when students miss a final exam for reasons considered by
the Science Department to be unavoidable. As with other missed exams, you
must notify the instructor within 24 hours of your absence from the final
exam; if you know beforehand that you will be unable to attend the final exam
at the scheduled time, the instructor must be informed immediately. |
Grading Scheme |
Final Mark Letter Grade Comment above 90% A Excellent |
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85-89% A- |
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80-84% B+
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75-79% B Good |
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70-74% B- |
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65-69% C+ |
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60-64% C Satisfactory |
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55-59% C- Minimum required for university
transfer and to take Chem 102 |
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53-54 % D+ |
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45-52%
D Minimum Pass (for non university
transfer courses) |
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below 45 % F Fail |
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Attendance |
It is essential that you maintain regular attendance. It is the responsibility of the student to
be appropriately prepared for all classes and laboratories. In the event that
you are absent from a particular lecture or laboratory, you must assume full
responsibility for the material missed. |
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Punctuality |
In order for all students to get the most out of each
lecture, punctual attendance is mandatory. Further to this end, we ask that
you talk as little as possible with your classmates during the lecture
(unless, of course, you are directed to do so by the instructor). In
addition, you must be in the laboratory at least one or two minutes before
the beginning of each laboratory period. Students who are more than 20
minutes late for the laboratory will not be allowed to perform the
experiment. |
Academic Honesty |
All forms of student dishonesty
are considered unacceptable. If students have clearly used plagiarism or copied from other students a grade of zero will be given for the assignment
or exam; in instances of copying on assignments and reports, all students involved will be
assigned a zero. Cheating on final exams will result in a grade of F being assigned for the course.
Please see the College Calendar for a description of students’ rights and
responsibilities. |
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ASSIGNED QUESTIONS:
Chapter 7
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6, 7, 26, 13, 14, 18, 22,
26, 29, 33, 37, 41, 43, 49, 51, 54
55, 61, 69, 73, 81, 83 |
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Chapter 11
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79, 81 |
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Chapter 20
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4, 6, 10, 13, 20, 23, 37,
43, 45, 49, 53, 55, 61, 67, 71, 73
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Chapter 21
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25, 27, 29, 33, 35, 37, 41, 43, 51, 53, 57, 67,
71, 73
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Chapter 15
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25, 29, 33, 39, 43, 47, 49, 51, 59, 61, 65, 79, 95
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Chapter 11
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4, 5, 6, 7, 8, 10, 11, 12, 13, 14, 15, 22, 25, 29,
33, 35, 37, 39,
41, 49, 51, 53, 55, 57, 59, 61, 63, 65, 67, 71
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Chapter 12
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5, 7, 10, 11, 13, 14, 17, 18, 23, 25, 27, 33, 39,
43, 45
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Chapter 13
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17, 18, 19, 20, 61, 65, 71
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Chapter 22
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5, 7, 10, 15, 21, 25, 29, 41, 47, 51
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Chapter 23
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7, 8, 16, 17, 29, 31, 33, 41, 47, 51, 55, 59
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CHEM 102/105 - INTRODUCTORY
UNIVERSITY CHEMISTRY II
MODULE 1 THERMOCHEMISTRY Getting Started: Some
Terminology Chapter 7-1 Heat Chapter 7-2
Heats of Reaction and Calorimetry Chapter
7-3 Work Chapter 7-4 The First Law of
Thermodynamics Chapter 7-5 Heats of Reaction: DU and DH Chapter
7-6 Hess’s Law: Chapter
7-7 Standard Enthalpies of
Formation Chapter 7-8 Bond Order and Bond Lengths Chapter 11-8 Bond Energies Chapter
11-9 Spontaneity Chapter
20-1 The Concept of Entropy Chapter
20-2 Evaluating Entropy and Entropy Changes Chapter
20-3 Second Law of
Thermodynamics Chapter 20-4 Standard Free Energy
Change: DG° Chapter 20-5 Free Energy Change and
Equilibrium Chapter 20-6 DG° and Keq as Functions of
Temperature Chapter 20-7 MODULE 2 ELECTROCHEMISTRY Electrode Potentials Chapter 21-1 Standard Electrode
Potentials Chapter 21-2 Ecell DG and Keq Chapter
21-3 Ecell as a Function of Concentration Chapter
21-4 Batteries Chapter 21-5 Corrosion Chapter
21-6 Electrolysis Chapter
21-7 Industrial Electrolysis
Processes Chapter 21-8 MODULE 3 CHEMICAL KINETICS Rate of a Chemical Reaction Chapter 15-1 Measuring Reaction Rates Chapter 15-2 The Rate Law Chapter 15-3 Zero Order Reactions Chapter
15-4 First Order Reactions Chapter 15-5 Second Order Reactions Chapter 15-6 Reaction Kinetics: A
Summary Chapter 15-7 Theoretical Models for
Kinetics Chapter 15-8 Effect of Temperature on
Rates Chapter 15-9 Reaction Mechanisms Chapter 15-10 Catalysis Chapter
15-11 |
MODULE 4 MOLECULAR SHAPES & BONDING
Lewis Theory: An Overview Chapter 11-1 Covalent Bonding: An
introduction Chapter 11-2 Polar Covalent Bonds Chapter 11-3 Writing Lewis Structures Chapter 11-4 Resonance Chapter
11-5 Exceptions to the Octet
Rule Chapter 11-6 The Shapes of Molecules Chapter 11-7 What a Bonding Theory
Should Do Chapter 12-1 Introduction to Hybridization of Atomic Orbitals Chapter
12-3 Multiple Covalent Bonds Chapter 12-4 Molecular Orbital Theory Chapter 12-5 Van de Waals
Forces Chapter
13-5 Hydrogen Bonding Chapter 13-6 Chemical Bonds as
Intermolecular Forces Chapter
13-7 MODULE 5 DESCRIPTIVE CHEMISTRY Alkali Metals Chapter
22-1 Alkaline Earth Metals Chapter 22-2 Group 13 Metals Chapter
22-4 Group
14 Metals Chapter
22-5 The Noble Gases Chapter
23-1 The Halogens Chapter
23-2 The Oxygen Family Chapter
23-3 The Nitrogen Family Chapter
23-4 Group 14(4A) Nonmetals Chapter 23-5 Time
Permitting: Review
of Transitional Metals Chapter
24 |