ENROLL Course Search

Saved Courses (0)

Your search for courses for 19/SP found 4 courses. New Search

CHEM 259.00 Molecular Visualizations 2 credits

Open: Size: 16, Registered: 14, Waitlist: 0

Weitz Center 235

MTWTHF
3:10pm4:20pm
Synonym: 54381

Marion E Cass

Students will learn to use molecular visualization tools to examine 3D molecular structures and create visual images. Each student will create and perfect one visualization designed to guide others through a structurally significant concept.  We will primarily use the web-based tool JSmol and will access the Cambridge Crystallographic Data Base as well as the Protein Data Base. Guest lectures will be given by Rou-Jia Sung (Biology) and Joe Chihade (Chemistry) to highlight other visualization techniques.

Prerequisite: Chemistry 234 or Biology 126

CHEM 352.01 Laboratory in Advanced Inorganic Chemistry 2 credits

Open: Size: 4, Registered: 2, Waitlist: 0

Olin 12 / Olin 101

MTWTHF
3:10pm4:20pm8:00am12:00pm

Requirements Met:

Synonym: 51143

Marion E Cass

Synthesis, purification and spectroscopic characterization of transition-metal complexes with an emphasis on methods for preparing and handling air-sensitive compounds. One laboratory per week. Corequisite: Chemistry 351.

Prerequisite: Chemistry 234 and 344

CHEM 351 required.

CHEM 352.02 Laboratory in Advanced Inorganic Chemistry 2 credits

Open: Size: 4, Registered: 0, Waitlist: 0

Olin 12 / Olin 101

MTWTHF
3:10pm4:20pm1:00pm5:00pm

Requirements Met:

Synonym: 51144

Marion E Cass

Synthesis, purification and spectroscopic characterization of transition-metal complexes with an emphasis on methods for preparing and handling air-sensitive compounds. One laboratory per week. Corequisite: Chemistry 351.

Prerequisite: Chemistry 234 and 344

CHEM 351 required.

CHEM 359.00 Molecular Orbital Theory 6 credits

Open: Size: 25, Registered: 3, Waitlist: 0

Old Music Hall 107

MTWTHF
11:10am12:20pm11:10am12:20pm12:00pm1:00pm

Requirements Met:

Synonym: 51158

Marion E Cass

This course will focus on the construction and understanding of molecular orbital (MO) diagrams using symmetry and energy arguments. Conceptual constructs will be contrasted to computational output to support theoretical tenets. We will begin with the construction of the MO diagrams of small molecules and proceed to larger molecules culminating in dimers and asymmetric molecules using the Hoffmann Fragment Approach.

Prerequisite: Chemistry 351 or instructor permission

Search for Courses

This data updates hourly. For up-to-the-minute enrollment information, use the Search for Classes option in The Hub

Class Period
Courses or labs meeting at non-standard times may not appear when searching by class period.
Requirements
You must take 6 credits of each of these.
Overlays
You must take 6 credits of each of these,
except Quantitative Reasoning, which requires 3 courses.
Special Interests