Submitted by Anne Bentley / Lewis & Clark College on Wed, 01/10/2018 - 18:20
My Notes
Specific Course Information
Course Area and Number
Chem 420
Institution
Lewis & Clark College
Location
Portland, OR
Textbook
Inorganic Chemistry (5th ediction), Miessler, Fischer & Tarr
Course Meetings and Time
Number of meetings per week
3 meetings / week
Time per meeting (minutes)
60 min / meeting
Number of weeks
14 weeks
Lab Associated
Yes, standalone
Average Class Size
5 to 15
Typical Student Population
The students enrolled in this course over the past ten years have been nearly 100% chemistry majors. (With one or two biochemistry / molecular biology majors.)
Description

Modern concepts of inorganic and transition-metal chemistry
with emphasis on bonding, structure, thermodynamics, kinetics and
mechanisms, and periodic and family relationships. Atomic structure,
theories of bonding, symmetry, molecular shapes (point groups), crystal
geometries, acid-base theories, survey of familiar elements, boron
hydrides, solid-state materials, nomenclature, crystal field theory,
molecular orbital theory, isomerism, geometries, magnetic and optical
phenomena, spectra, synthetic methods, organometallic compounds,
cage structures, clusters, lanthanides, actinides.

File attachments
Learning Goals

By the end of this course, students will be able to:

1.  Use concepts from quantum theory and atomic orbitals to explain periodic trends in atomic properties and relate these to inorganic chemistry.
 

2.  Predict the structure and using an appropriate model, describe the bonding in main group molecules.

3.  Identify the symmetry operations and the point group of a molecule.

4.  Apply tools from symmetry and group theory to solve problems involving vibrational spectroscopy and molecular orbital theory.

5.  Extend acid-base concepts to inorganic systems and use different models to predict chemical reactivity.

6.  Use Latimer, Pourbaix, and Frost diagrams to predict the electrochemical activity of a system.

7.  Describe the structures and properties of common crystalline and ionic solids.

8.  Use crystal field or MO theory to explain the electronic structure and magnetism of transition metal complexes.

9.  Read and discuss an article from the inorganic chemistry primary literature.

 

How the course is taught
Mostly lecture, some small groups, daily homework problems
Evaluation
Grading Scheme
Midterm exams (3) 45%
Final exam 20%
Problems 20%
Journal article assignment 15%
Creative Commons License
Attribution, Non-Commercial, Share Alike CC BY-NC-SA
Claude Mertzenich / Luther College

Do you know of any listing of texts for advanced inorganic chemistry?

Fri, 06/08/2018 - 16:37 Permalink