Dr. Michael Lufaso
E-mail: e-mail
Office Hours: MW 9-11 am, F 2-3 pm; Bldg/office - 50/2716
Lecture: MWF 1:00-1:50 pm, Bldg/lecture room - 50/1400
Textbook: Inorganic Chemistry - 4th edition - C.E. Housecroft and A.G. Sharpe ISBN:9780273742753.
Fall 2014 Syllabus
Lecture scores posted on UNF Blackboard

Lecture notes:
Ch. 1
Chapter 1 - Basic Concepts: atoms

Ch. 2
Chapter 2 - Basic Concepts: molecules

Ch. 3
Chapter 3 - Introduction to molecular symmetry and Point Group Flowchart

Ch. 4
Chapter 4 - Experimental Techniques

Ch. 5
Chapter 5 - Bonding in polyatomic molecules

Ch. 6
Chapter 6 - Structures and energetics of metallic and ionic solids

Ch. 7
Chapter 7 - Acids, bases and ions in aqueous solution
Ch. 19
Chapter 19 - d-block metal chemistry: general considerations
Ch. 20
Chapter 20 - d-block metal chemistry: coordination complexes

Chapter 1
Chapter 2
Chapter 3
Chapter 4
Chapter 7
Chapter 19
Chapter 20

See the syllabus for examination dates.
Exam 1 - September 17, 2014. Exam 1 study guide.
Exam 2 - October 13, 2014. Exam 2 study guide.
Exam 3 - November 5, 2014. Exam 3 study guide.
Exam 4 - November 26, 2014. Exam 4 study guide.
Final Exam - December 8, 2014. Final Exam study guide.
Final Exam - Dates and Times

Companion website for textbook and student resources.
Electronegativity Scales Pauling, Allred-Rochow, Mulliken, and Mulliken-Jaffe Scales

Structure and Symmetry:
VSEPR Valence Shell Electron Pair Repulsion model
Pascal's Triangle
Inorganic Spectroscopy Tutorial IR, UV-Vis, NMR at the University of Alberta
Symmetry Resources, Tutorial, Gallery and Challenge at Otterbein College
Symmetry and Point Groups - Examples
Symmetry and Point Groups at reciprocalnet.org
Chemical Education Digital Library site
Chemistry, Structures, and 3D Molecules at 3Dchem.com
Tables for Group Theory provided by Shriver and Atkins: Inorganic Chemistry 4e, Oxford University Press
3D Molecular Symmetry Shockwave (subscription needed)

Symmetry and structure: readable group theory for chemists by Sidney Francis Alan Kettle
Group theory for chemists by George Davidson

Model Kit
Sargent Welch - Basic Student Inorganic Model Set
Molecule Model Kits - MolecularVisions
Molymod inorganic/organic student molecular model set
Indigo.com - Chemistry Molecular Model Set

Nomenclature practice at wbu.edu
Inorganic nomenclature Chemguide
Nomenclature of Inorganic Chemistry: Recommendations 2005 By Neil. G. Connelly, Royal Society of Chemistry (Great Britain)

Other resources
Inorganic Chemistry - Angus Wilkinson - GA Tech

All academic work submitted by students, written or otherwise, is expected to be the result of their own independent thought and research. In situations where students are unsure about a question of plagiarism involving their work, they should consult their professor on the matter before submission of the assigment or report. In cases where students submit work professing to be their own, but uses the ideas, organization, wording or anything else from another source without the appropriate acknowledgment, then the student(s) is/are guilty of plagiarism. For example, plagiarism includes reproducing someone else's work, whether it be portions of a published article, chapter of a book, an assignment from a friend, or information contained in a solutions manual. Plagiarism may also be considered to include the practice of another person altering or revising the work, which a student later submits as his/her own. Students may discuss assignments among themselves or with a professor or tutor, but when the actual work to be submitted is done, it must be completely solely by the student. In cases where a a student's report or assignment involves research in outside sources or information, the student must carefully acknowledge exactly what, where and how he/she has utliized the sources or information. If the wording of another is used, quotation marks must be placed around the passage in question and an appropriate indication of its original source be added. The process of only making simple changes while leaving the content and organization intact is an indication of plagiarism.

On each exam day I am going to give you two examinations, one in chemistry and one in honesty. I hope you will pass them both, but if you must fail one, let it be chemistry, for there are many good people in this world today who cannot pass an examination in chemistry, but there are no good people in the world who cannot pass an examination in honesty.

(variation on a quote from Madison Sarratt (1891-1978), dean, Vanderbilt University)

Prerequisite knowledge:
A non-exhaustive list of incoming expectations for the Inorganic Chemistry lecture are listed below. The prerequisite courses are General Chemistry I/II, Quantitative Analytical Chemistry, and Organic Chemistry I/II:

atomic structure (e.g. atomic numbers, mass numbers, isotopes, subatomic particles), dimensional analysis, periodic table, naming,ions and ionic compounds, stoichiometry, formula weights, interconverting masses and moles, thermochemistry, enthalpy, wave behavior of matter, quantum numbers, quantum mechanics and atomic orbitals, representations of orbitals (s,p,d,f), electron spin and Pauli exclusion principle, electron configurations, effective nuclear charge, group and periodic trends (sizes of atoms and ions, electron affinity, electronegativity, ionization energy), Lewis symbols and structures, ionic bonding and energetics, covalent bonding, molecular geometry, VSEPR, bonding theories (valence bond theory, hybridization), covalent bonding and orbital overlap, molecular orbitals for diatomic molecules, gas laws, phase changes, phase diagrams, structures of solids, unit cells, close packing of spheres, bonding in solids (molecular, covalent network, ionic, metallic), colligative properties, chemical kinetics (Ea, rate laws), acidity (pH, pKa), titrations, equilibrium (acid-base, solubility, common ion effect), Le Chatelier's Principle, classical thermodynamics and Laws of Thermodynamics, entropy, Gibbs Free energy, oxidation states, balancing oxidation-reduction (redox) reactions, Nernst equation, nuclear chemistry (e.g. radioactivity, decay), crystal field theory, electron configuration in complexes, nucleophiles and electrophiles, SN1 and SN2 reactions, spectroscopy (Visible, IR, UV, NMR)

Review General Chemistry I and General Chemistry II
Chemistry Review Activities sciencegeek.net
Chemistry Links and Resources

Supplemental literature related to inorganic chemistry:
Inorganic Chemistry, 4th ed., Gary Miessler, Donald A. Tarr; Prentice Hall, 2010
Inorganic Chemistry, 5th ed., Duward F. Shriver, Peter W. Atkins, Tina Overton, Jonathan Rourke; W. H. Freeman, 2009
Inorganic Chemistry, 4th ed., Duward F. Shriver, Peter W. Atkins; Oxford University Press, 2006
Inorganic Chemistry, 3rd ed., Duward F. Shriver, Peter W. Atkins; Oxford University Press, 1999
Inorganic Chemistry, 2nd ed., Duward F. Shriver, Peter W. Atkins, and C. H. Langford; W. H. Freeman and Co., New York, 1994
Concepts and models of inorganic chemistry 3rd, Bodie Eugene Douglas, Darl Hamilton McDaniel, John J. Alexander, Wiley, 1994
Inorganic chemistry: principles of structure and reactivity James E. Huheey, Ellen A. Keiter, Richard L. Keiter; Pearson Education, 2000
Inorganic Chemistry Vol 1, 3rd ed., Duward F. Shriver, Peter William Atkins; W. H. Freeman and Co., 1999
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