An introduction to the chemistry of inorganic compounds and materials. Descriptive chemistry of the elements. A survey of Crystal Field Theory, band theory, and various acid-base theories. Use of the chemical and scientific literature. Introduction to the seminar concept.
Theoretical and descriptive inorganic/bioinorganic chemistry. Examines molecular structure and other properties of crystals, coordination compounds, and organometallic compounds. Topics include the roles of metal complexes as acids and bases, in oxidation-reduction reactions, and in biochemical systems. Laboratory in which main group and transition metal compounds are synthesized and studied. This course counts towards the Writing Across the Curriculum requirement.
Modern theories of bonding and structure, spectroscopy, redox chemistry, and reaction mechanisms. Coordination compounds, organometallic clusters, and catalysis.
Fundamental topics in inorganic chemistry will be explored, among them: atomic theory and periodicity of the elements, bonding and properties of solid state materials, main group chemistry, structure and bonding of coordination compounds, and bio-inorganic systems. The laboratory component of the course will give students experience with a various laboratory techniques used in the synthesis and characterization of inorganic compounds.
An introduction to the chemistry of inorganic compounds and materials. Descriptive chemistry of the elements. A survey of Crystal Field Theory, band theory, and various acid-base theories. Use of the chemical and scientific literature. Introduction to the seminar concept.
This second semester general chemistry course is a continuation of the Principles of Chemistry sequence that is recommended for science students. The focus of the course is the fundamentals of structure and bonding, with an emphasis on predicting reactivity.
CHEM 4654 (CRN: 10411) and the accompanying lab (CHEM 4654L) is worth 4 credit hours. CHEM 4654 covers atomic theory and spectroscopy, periodic properties, descriptive chemistry, inorganic structure and bonding, coordination chemistry, organometallic chemistry, symmetry and group theory. Students must be concurrently enrolled in CHEM 4654L (CRN: 10412).
During our first fellows workshop, the first cohort of VIPEr fellows pulled together learning objects that they've used and liked or want to try the next time they teach their inorganic courses.
Introduction to foundational concepts in inorganic chemistry with emphasis on atomic structure, bonding, and reactivity. Topics will include nuclear chemistry, quantum mechanics, periodic trends, covalent bonding, ionic bonding, metallic bonding, coordinate covalent bonding, acid-base chemistry, electrochemistry, and thermodynamics.
This course is a survey of the chemistry of the inorganic elements focusing on the relationship between electronic structure, physical properties, and reactivity across the periodic table. Topics to be covered include: atomic structure, chemical bonding, group theory, spectroscopy, crystal field theory, coordination chemistry, organometallic chemistry and catalysis, and bioinorganic chemistry. Prerequisites: Successful completion of CH120, CH121, (with a C- or better) and CH 301 (suggested)