Gary A Mabbott portrait

Gary A Mabbott

Associate Professor
Degree
B.A./B.S. College of Wooster (Ohio)
Ph.D. University of Wisconsin
Office
OWS 454
Phone
(651) 962-5583
Fax
2-5209
Mail
OSS 402

Professional Interests

Analytical Chemistry 
Bioanalytical and Forensic Applications
Spectral Imaging

 

Fall 2014 Courses

Fall 2014 Courses
Course - Section Title Days Time Location
CHEM 300 - 01 Quantitative Analysis - T - R - - - 0955 - 1135 OWS 474
CRN: 40047 4 Credit Hours Instructor: Gary Mabbott An introduction to quantitative chemical analysis. Topics include sample treatment, the statistical handling of data, equilibria governing acid/base chemistry and complex formation, and fundamentals underlying measurements using the following techniques: titrimetry (using acid/base, complexation and redox reactions), spectrophotometry (atomic absorption and emission spectroscopy and molecular absorption spectroscopy), and analytical separations (GC, HPLC, and capillary electrophoresis). Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: A minimum grade of C- in CHEM 112 or 115

Schedule Details

Location Time Day(s)
CHEM 300 - 51 Quantitative Analysis/Lab M - - - - - - 1335 - 1735 OWS 474
CRN: 40048 0 Credit Hours Instructor: Gary Mabbott An introduction to quantitative chemical analysis. Topics include sample treatment, the statistical handling of data, equilibria governing acid/base chemistry and complex formation, and fundamentals underlying measurements using the following techniques: titrimetry (using acid/base, complexation and redox reactions), spectrophotometry (atomic absorption and emission spectroscopy and molecular absorption spectroscopy), and analytical separations (GC, HPLC, and capillary electrophoresis). Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: A minimum grade of C- in CHEM 112 or 115

Schedule Details

Location Time Day(s)
CHEM 300 - 52 Quantitative Analysis/Lab - - W - - - - 1335 - 1735 OWS 474
CRN: 40049 0 Credit Hours Instructor: Gary Mabbott An introduction to quantitative chemical analysis. Topics include sample treatment, the statistical handling of data, equilibria governing acid/base chemistry and complex formation, and fundamentals underlying measurements using the following techniques: titrimetry (using acid/base, complexation and redox reactions), spectrophotometry (atomic absorption and emission spectroscopy and molecular absorption spectroscopy), and analytical separations (GC, HPLC, and capillary electrophoresis). Lecture plus four laboratory hours per week. Offered fall and spring semesters. Prerequisite: A minimum grade of C- in CHEM 112 or 115

Schedule Details

Location Time Day(s)
CHEM 491 - I7 Individual Research - - - - - - - -
CRN: 43556 2 Credit Hours Instructor: Gary Mabbott

Schedule Details

Location Time Day(s)

J-Term 2015 Courses

J-Term 2015 Courses
Course - Section Title Days Time Location

Spring 2015 Courses

Spring 2015 Courses
Course - Section Title Days Time Location
CHEM 320 - 01 Instrumental Analysis - T - R - - - 0955 - 1135 OWS 474
CRN: 21811 4 Credit Hours Instructor: Gary Mabbott Principles and techniques of operation of modern chemical instrumentation not covered in CHEM 300. Topics include the capabilities, limitations and data interpretation of advanced optical spectroscopies (luminescence, Raman, etc.), voltammetry, potentiometry, differential scanning calorimetry, thermal gravimetric analysis and mass spectrometry. Fundamentals of signal processing, basic circuitry and optical components are also included. The laboratory consists of both structured exercises and a student designed project and report based on an industrial problem or on an analysis problem of interest to the student. Lecture plus four hours of lab each week. Offered spring semester. Prerequisites: CHEM 202, 300

Schedule Details

Location Time Day(s)
CHEM 320 - 51 Instrumental Analysis (lab) - - W - - - - 1335 - 1735 OWS 477
CRN: 21812 0 Credit Hours Instructor: Gary Mabbott Principles and techniques of operation of modern chemical instrumentation not covered in CHEM 300. Topics include the capabilities, limitations and data interpretation of advanced optical spectroscopies (luminescence, Raman, etc.), voltammetry, potentiometry, differential scanning calorimetry, thermal gravimetric analysis and mass spectrometry. Fundamentals of signal processing, basic circuitry and optical components are also included. The laboratory consists of both structured exercises and a student designed project and report based on an industrial problem or on an analysis problem of interest to the student. Lecture plus four hours of lab each week. Offered spring semester. Prerequisites: CHEM 202, 300

Schedule Details

Location Time Day(s)