The information on this site is an archived previous calendar for the 2023-2024 academic year.
The current University Calendar is available at https://www.mun.ca/university-calendar/
13.5 Chemistry
Students are strongly advised to successfully complete the Chemistry sequence appropriate to their program (Chemistry 1200/1001 or 1050/1001 or 1050/1051) on the Campus they first attend prior to transfer to another Campus.
Chemistry courses are designated by CHEM.
CHEM 1001 General Chemistry II
focuses on rates of reaction, chemical equilibria, thermodynamics, electrochemistry, and introduction to organic chemistry.
CHEM 1200 General Chemistry I
builds on basic chemistry concepts from high school. Topics include is atomic structure and bonding, stoichiometry, reactions in aqueous solutions, gases, energetics of chemical reactions, the periodic table, chemical bonding and molecular geometry, intermolecular forces.
CHEM 1810 Elements of Chemistry
focuses on matter, scientific measurement, atomic theory, the periodic table, chemical compounds and elementary bonding theory, the mole, chemical reactions, the chemistry of selected elements, gases, solutions, stoichiometry. This course is specifically intended for those who have no background in chemistry.
CHEM 1900 Chemistry in Everyday Life
is a course that shows the relevance of chemistry in our daily lives. Following an introduction to atomic structure and chemical bonding, the course will focus on some of the following topics: organic chemistry and fuels; redox processes and batteries; acids, bases, and household cleaners; phases and detergents; the chemical components of foods; polymers and plastics; toiletries, and pharmaceuticals.
CHEM 2210 Introductory Inorganic Chemistry
focuses on fundamental concepts in the chemistry of s, p, and d block elements and their compounds. Emphasis will be placed on periodic trends in physical and chemical properties, molecular symmetry, molecular orbital diagrams, simple crystal structures, Lewis acid/base theory, and introductory coordination chemistry.
CHEM 2301 Thermodynamics and Kinetics
builds upon knowledge of physical chemistry from first year. It covers the three laws of thermodynamics for ideal and real systems as well as chemical kinetics. Topics in thermodynamics include the thermodynamics of ideal and real gases, phases, and solutions, the Maxwell relations, equilibria between phases, and in electrolyte solutions. The integrated rate laws for simple and complex mechanisms, and the temperature dependence of reaction rates in terms of kinetic molecular theory are some of the topics discussed in the kinetics section of the course.
CHEM 2302 Quantum Chemistry and Spectroscopy
examines the quantum mechanics of simple systems such as the particle in a box, the harmonic oscillator, linear rotor, and hydrogen-like atoms. Topics also include orbital quantum numbers, spin, many electron atoms, an introduction to quantum mechanical methods, the electronic structures of molecules, bonding, and symmetry. Furthermore, electronic, rotational, and vibrational spectroscopy will be discussed as well as modern applications of spectroscopy and lasers. AR: attendance is required in the laboratory component of this course. Failure to attend may result in a failing grade or deregistration from the course.
CHEM 2400 Introductory Organic Chemistry I
is a course on bonding involving carbon; conformations and sterochemistry; introduction to functional groups and nomenclature; properties, syntheses and reactions of hydrocarbons, alkyl halides, alcohols and ethers.
attendance is required in the laboratory component of this course. Failure to attend may result in a failing grade or deregistration from the course.
CHEM 2440
3
CHEM 2401 Introductory Organic Chemistry II
is an introduction to the interpretation of mass, infrared, 1H and 13C NMR spectra; properties, syntheses and reactions of simple aromatic and heteroaromatic compounds, ketones, aldehydes, amines, carboxylic acids and their derivatives; aldol and related reactions.
attendance is required in the laboratory component of this course. Failure to attend may result in a failing grade or deregistration from the course.
CHEM 2440
3
CHEM 2440 Organic Chemistry for Biologists
is an introduction to the principles of organic chemistry with an emphasis on material relevant to biological molecules. The laboratory will introduce techniques and illustrate concepts covered in the course.
CHEM 3261 Atmospheric Chemistry
(same as Environmental Science 3261) provides a comprehensive study of the chemistry of the Earth’s atmosphere. Beginning with an overview of planetary atmospheres, we follow the evolution of the Earth’s atmosphere until today. Atmospheric chemical processes are interpreted from the perspectives of chemical kinetics, chemical thermodynamics, molecular orbital theory, and molecular spectroscopy. The mechanisms of stratospheric reactions are studied in the context of the ozone layer, while those of the troposphere are linked to the so-called ‘greenhouse effect’ and aspects of pollution. The very different upper-atmosphere chemistry is also studied.
CHEM 3262 Environmental Biogeochemistry
introduces students to the biological, chemical, and geological processes underpinning carbon, nitrogen, sulfur, iron, manganese, and phosphorus cycling. Using real-world examples, this course provides an in-depth examination of the interplay between the different processes governing biogeochemical cycles within soils/sediments and along the aquatic continuum. Topics may also include early earth biogeochemistry, methods in biogeochemistry, and the role of spatial/ temporal variability and climate change on earth’s biogeochemical cycles.
AR = Attendance requirement as noted. CH = Credit hours: unless otherwise noted, a course normally has a credit value of 3 credit hours. CO = Co-requisite(s): course(s) listed must be taken concurrently with or successfully completed prior to the course being described. CR = Credit restricted: The course being described and the course(s) listed are closely related but not equivalent. Credit is limited to one of these courses. Normally, these courses cannot be substituted, one for the other, to satisfy program requirements. EQ = Equivalent: the course being described and the course(s) listed are equal for credit determination. Credit is limited to one of these courses. These courses can be substituted, one for the other, to satisfy program requirements. |
LC = Lecture hours per week: lecture hours are 3 per week unless otherwise noted. LH = Laboratory hours per week. OR = Other requirements of the course such as tutorials, practical sessions, or seminars. PR = Prerequisite(s): course(s) listed must be successfully completed prior to commencing the course being described. UL = Usage limitation(s) as noted. |
The information on this site is an archived previous calendar for the 2023-2024 academic year.
The current University Calendar is available at https://www.mun.ca/university-calendar/
Copyright © 2023 Memorial University of Newfoundland.
Newfoundland and Labrador, Canada.
calendar.editor@mun.ca