500
This course exposes pre-service secondary chemistry and physics teachers to theory and practice of teaching in secondary schools, design of instructional units, and safety practices. Must be completed prior to student teaching. Identical to
PHY 505. Credit may not be earned in more than one of these courses. Prerequisites:
CHM 132;
PHY 131 or 146; admission into the Teacher Education Program; signed major or minor in chemistry or physics (secondary education); Junior or Senior standing. Graduate students must be enrolled in a teaching master’s program.
Credits
3(3-0)
Prerequisites
CHM 132; PHY 131 or PHY 146; admission into the Teacher Education Program; signed major or minor in chemistry or physics (secondary education); Junior or Senior standingGraduate students must be enrolled in a teaching master’s program.
Corequisites
None.
Cross Listed Courses
PHY 505
Supervised experience in high school chemistry and/or physics classes. Identical to
PHY 507. Credit may not be earned in more than one of these courses. CR/NC only. Prerequisites: admission into the Teacher Education Program; Junior or Senior standing. Graduate students must be enrolled in a teaching master’s program. Pre/Co-requisite:
CHM 505 or
PHY 505.
Credits
1(Spec)
Prerequisites
admission into the Teacher Education Program; Junior or Senior standingGraduate students must be enrolled in a teaching master’s program.
Corequisites
None.
Cross Listed Courses
PHY 507
For science teachers and prospective teachers of grades 4-12. Emphasis on environmental chemistry concepts and laboratory/field activity development for use in middle and high school. This course may be offered in an online or hybrid format. Prerequisites: 8 credit hours of college level Chemistry; 6 credit hours of education coursework; Senior or Graduate standing; admission to Teacher Education Program or valid teaching certificate. Recommended: College level Organic Chemistry and a Teaching Methods course.
Credits
4(3-3)
Prerequisites
8 credit hours of college level Chemistry; 6 credit hours of education coursework; Senior or Graduate standing; admission to Teacher Education Program or valid teaching certificate.
Corequisites
None.
Qualitative and quantitative analysis using analytical sampling, method development, separation, instrumentation, and statistics to solve chemical problems and communicate the results. Prerequisite: CHM 211; or graduate standing. Recommended:
CHM 352 or 353 or 355.
Credits
4(1-6)
Prerequisites
CHM 211; or graduate standing.
Corequisites
None.
This course applies analytical chemistry to understand the fate of chemicals in the environment and green chemistry processes. Prerequisites: CHM 211;
CHM 343 or 346. Pre/Co-requisites:
CHM 351 or 353 or 355.
Credits
3(3-0)
Prerequisites
CHM 211; CHM 343 or CHM 346.
Corequisites
None.
This hands-on field and laboratory course applies analytical chemistry to analyze air, water, and soil samples collected from Michigan freshwater ecosystems. Prerequisites: CHM 211,
CHM 514 or
ENS 323 or
BIO 213; or graduate standing.
Credits
2(1-3)
Prerequisites
CHM 211; CHM 514 or ENS 223 or BIO 213; or graduate standing.
Corequisites
None.
Structure, function, and metabolism of proteins, carbohydrates, lipids, and nucleic acids. Prerequisite:
CHM 346 or 343 or admission to Chemistry MS or BCMB program.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 343 or admission to Chemistry MS or BCMB program.
Corequisites
None.
Structure and function of nucleic acids, proteins, lipids and membranes, and carbohydrates; enzyme kinetics and catalysis; glucose metabolism. Prerequisites:
CHM 346 or 347 or 348.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 347 or CHM 348.
Corequisites
None.
Continuation of
CHM 521. Metabolism of fatty acids, amino acids, and nucleotides. Biochemical mechanisms of DNA replication, transcription, translation, gene regulation, and cell signaling. Prerequisite:
CHM 521.
Credits
3(3-0)
Prerequisites
CHM 521.
Corequisites
None.
Isolation, characterization, and analysis of proteins and other biomolecules using chromatographic, electrophoretic, spectroscopic, and advanced analytical techniques. Prerequisites: CHM 211, CHM 349; or graduate standing. Pre-/Co-requisites: CHM 520 or CHM 521 or graduate standing.
Credits
2(1-3)
Prerequisites
CHM 211, CHM 349; or graduate standing.
Corequisites
None.
Practical and theoretical aspects associated with the laboratory analysis of macromolecules (proteins and nanomolecules). Prerequisites: CHM 211 or graduate standing. Pre/Co-requisites:
CHM 520 or 521.
Credits
2(1-3)
Prerequisites
CHM 211 or graduate standing.
Corequisites
None.
Molecular structure and symmetry, acid-base and oxidation-reduction chemistry, reactivity of inorganic compounds from a thermodynamical basis, catalysis, solid state and organometallic compounds. Prerequisites:
CHM 331 or graduate standing. Recommended:
CHM 352 or 353.
Credits
3(3-0)
Prerequisites
CHM 331 or graduate standing.
Corequisites
None.
Mechanisms of organic reactions, emphasizing methods by which these are determined including kinetics, principles of bonding and stereochemistry in depth. Pre-requisites:
CHM 346 or 347 or 348 or graduate standing.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 347 or CHM 348 or graduate standing.
Corequisites
None.
Utilization of spectroscopic and related methods (UV, IR, MS, 1D and 2D NMR, other) for the determination of molecular structure. Prerequisite:
CHM 343 or 345 or graduate standing.
Credits
3(3-0)
Prerequisites
CHM 343 or CHM 345 or graduate standing.
Corequisites
None.
Advanced synthesis, separation, and structure determination of organic and inorganic compounds. Prerequisite:
CHM 349, 331.
Credits
2(1-3)
Prerequisites
CHM 349, CHM 331
Corequisites
None.
This course will provide a detailed survey of metals, semiconductors, ceramics, and nanomaterials, with a special emphasis on structure- property relationships. Students cannot receive credit for both
SAM 700 and
CHM 551. Prerequisite:
CHM 331 or graduate status. Recommended:
CHM 346 or 347 or 348.
Credits
3(3-0)
Prerequisites
CHM 331 or graduate status
Corequisites
None.
Advanced development and application of physical theories using a statistical mechanics approach to understanding of molecular energetics and kinetics. Prerequisites:
CHM 352 or 353 or 355;
MTH 133; or graduate standing.
Credits
3(3-0)
Prerequisites
CHM 352 or CHM 353 or CHM 355; MTH 133; or graduate standing
Corequisites
None.
This course provides in-depth quantum theory and its applications to understanding the properties of atoms and molecules. Prerequisites:
CHM 353 or graduate standing in Chemistry.
Credits
3(3-0)
Prerequisites
CHM 353 or graduate standing in Chemistry
Corequisites
None.
Introduction to biomimetic nanotechnology. Biological molecules responsible for a human sense or movement are presented and their application in artificial systems is discussed. Prerequisites: CHM 343 or 346 or graduate standing in a CSE program.
Credits
3(3-0)
Prerequisites
CHM 343 or CHM 346 or graduate standing in a CSE program
Corequisites
None.
An introductory course on polymer synthesis, polymer theory, and basic characterization techniques. Prerequisites:
CHM 346 or 347 or 348;
CHM 352 or 353.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 347 or CHM 348; CHM 352 or CHM 354
Corequisites
None.
Treatment of the following three primary areas: 1) actual chemistry of industry, 2) the technology of industry, and 3) the industrial chemical environment. Prerequisite:
CHM 346 or 347 or 348 or acceptance into the Chemistry MS program.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 347 or CHM 348 or acceptance into the Chemistry MS program
Corequisites
None.
Introduction to biomaterials science, including materials properties, interactions between materials and living tissues, and materials and biological testing. Prerequisites:
CHM 346 or 343 or graduate standing. Recommended:
CHM 352 or 353 or 355;
CHM 520 or 521;
CHM 561;
BIO 105QR.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 343 or graduate standing
Corequisites
CHM 561
Treatment of laboratory techniques common to polymer science: synthesis of polymers and the characterization of these materials by spectroscopic, thermal, and mechanical methods. Prerequisites:
CHM 349. Co-requisite:
CHM 561.
Credits
2(1-3)
Prerequisites
CHM 349
Corequisites
CHM 561
Interdisciplinary introduction to the science of drug formulation, delivery and efficacy. Prerequisite:
CHM 346 or 343 or 342 or graduate standing. Recommended:
CHM 520 or 521;
CHM 355 or 353;
BIO 392.
Credits
3(3-0)
Prerequisites
CHM 346 or CHM 343 or CHM 342 or graduate standing
Corequisites
None.
Introduction to materials characterization; Characterization methods for polymeric, inorganic, and nanomaterials. Prerequisites:
CHM 331;
CHM 346 or 347 or 348; or graduate standing.
Credits
2(1-3)
Prerequisites
CHM 331; CHM 346 or CHM 347 or CHM 348; or graduate standing
Corequisites
None.
Special topics in chemistry presented at an advanced undergraduate - beginning graduate level. Course may be taken for credit more than once; total credit not to exceed nine hours. Prerequisites: See Course Search and Registration.
Credits
1-9(Spec)
Prerequisites
See Course Search and Registration
Corequisites
None.
Special topics in chemistry, presented in short course or workshop format. Course may be taken for credit more than once; total credit not to exceed nine hours. CR/NC only. Prerequisites: Senior level undergraduate or graduate standing in chemistry or biochemistry programs.
Credits
1-9(Spec)
Prerequisites
Senior level undergraduate or graduate standing in chemistry or biochemistry programs
Corequisites
None.
Presentation of technical material and training in the use of chemical literature. Prerequisites: 25 credit hours of chemistry courses or graduate standing.
Credits
1-2(Spec)
Prerequisites
25 credit hours of chemistry courses or graduate standing
Corequisites
None.