Chemistry 5640 Instrumental Analysis
Spring 2005
Meet: MWF 11:30-12:20, ML-151

Class text (Required):

• D. A. Skoog, F. James Holler, and T. A. Nieman Principles of Instrumental Analysis 5th Edition, Saunders College Publishing (1998)

Other Reference Texts (not required):

• H. A. Strobel and W. R. Heineman Chemical Instrumentation: A Systematic Approach John Wiley (1989)
• H. V. Malmstadt, C. G. Enke, and S. R. Crouch Electronics and Instrumentation for Scientists Benjamin/Cummings (1981)
• D. C. Harris Quantitative Analysis 4th Edition W. H. Freeman (1995)

Philosophy: The purpose of this course is to survey many of the instrumental methods of chemical analysis commonly used in the analytical laboratory. The lectures will be a mixture of practical, theoretical, and instrumental topics. Reading the book is an essential component of the class. But in addition to the lectures based on the book, we should have time to go into more detail on certain topics.

Learning Objectives:

• Demonstrate knowledge of sampling methods for all states of matter
• Assess sources of error in chemical and instrumental analysis and account for errors in data analysis
• Recognize interferences in chemical and instrumental analysis
• Comprehend the concept of and perform instrument and method calibration
• Apply and assess concepts of availability and evaluation of analytical standards and formulate standardization methodology
• Integrate a fundamental understanding of the physics principles of and instrumentation for atomic, molecular, and mass spectrometry, magnetic resonance spectrometry, chromatography and other methods of separation, electroanalytical methods, and thermal methods for chemical analysis
• Apply theory and operational principles of analytical instruments including electronic components
• Distinguish between qualitative and quantitative measurements and compare and critically select methods for elemental and molecular analyses

Grades: There will be three equal-valued examinations. The first two wil be take-home examinations. The finial wil be the ACS standard examination in instrumental analysis. All examinations are worth 100 points for a total of 300 points. Grades will be based on the percent score of the average of these examinations. The university grading system will be used to assign letter grades based on the % score. Letter grades may be curved (to the students favor only) if the class as a whole does not perform well on the examinations and if some questions are found to be too difficult.

Withdrawal Policy: This course will follow the University policy on withdrawals stated in the current Undergraduate Catalog. Drop dates are listed in the current Schedule of Classes.

Missed Examination Policy: Students may be excused from an examination in cases of emergency. Documentation must be supplied to be excused. In cases of excused absence, grades will be assigned based on % of adjusted total score. No repetition of examinations is permitted.

Attendance Policy: Attendance will not be taken. Attendance is mandatory for successful performance in this course.

Student Disability Statement: Any student with a disability that requires accommodations must contact the Instructor. The disability must be documented by the Disability Resource Center. Course materials may be requested in alternative formats.

Material: A schedule of class material follows. The reading is listed in parenthesis.

Electronics:

• Basic Electronics (Chapter 2)
• Operational Amplifiers (Chapter 3)
• Digital Electronics (Chapter 4)
• Signals and Noise (Chapter 5)

Spectroscopy:

• Properties of Light (Chapter 6)
• Optical Instruments (Chapter 7)
• Atomic Spectroscopy:
  • Atomic Absorption (Chapter 9)
  • Atomic Emission (Chapter 10)
  • X-Ray Spectroscopy (Chapter 12)
• Molecular Spectroscopy:
  • Ultraviolet-Visible Absorption (Chapter 13&14)
  • Molecular Luminescence (Chapter 15)
  • Infrared Absorption (Chapter 16&17)

Electrochemical Analysis:

• Basic Concepts (Chapter 22)
• Potentiometry (Chapter 23)
• Voltammetry (Chapter 25)

Chromatography:

• Basic Concepts (Chapter 26)
• Gas Chromatography (Chapter 27)
• Liquid Chromatography (Chapter 28)
• Capillary Electrophoresis (Chapter 30)

Handouts:

• Thevenin Equivalent Circuit Example
• Complex Impedance Example

Examinations for 2005 class:

• First Take Home Examination
• Second Take Home Examination

Links

• Basic electronics using complex impedance at the Georgia State University HyperPhysics 
• Learn about some real operational amplifiers, digital interface, and digital logic elements using National Semiconductor's on-line semiconductor database.
• Texas Instruments also has lots of operational amplifier circuit specifications on line.
• Another manufacurer of high-quality devices is Analog Devices.
• Professor Tom O'Haver's Digital Signal Processing (DSP) tutorial
• Umeå University analytical chemistry site. Full of educational materials. Best site around for analytical chemists.
• On-line tutorial on monochromators and spectrographs from Instruments SA.
• Several JAVA applets of interest to chemists may be run at irYdium Project. Your browser must be able to run JAVA to use these. Look to educational applets under the sub-headings of Chemistry and Physics. You will find a molecular spectrum simulator, an "on line" energy level calculator for the He atom, several molecular graphics applets, and even ab initio molecular geometry calculators. There are several interactive models for solid-state physics, applicable to semiconductor detector technology, also on line.
• To get a feel for motions in some hot molecules using JAVA, see the dynamic molecule at Department of Physical Chemistry at the Darmstadt University of Technology
• A good site for spectroscopy information is through the Society for Applied Spectroscopy links page.
• Tutorial on Ion Selective Electrodes (ISE) from Nico2000, Ltd.
• Also, be sure to check out the links to photothermal spectroscopy through my home page

Selected links to analytical instrumentation manufacturers

Yahoo links to chemical analysis instrumentation manufacturers.

• Spectroscopy and Chromatography Instrumentation
• General Chemical Analysis Instruments

Some "big-name" manufacturers

• Agilent
• Bruker
• Buck Scientific
• Hitachi
• Perkin Elmer
• Shimadzu
• Thermo Electron Corporation
• Varian

Contact

Professor Stephen E. Bialkowski
Department of Chemistry and Biochemistry
Utah State University
Logan, UT 84322-0300 USA
Office phone: (435) 797-1907
FAX: (435) 797-3390
Email: Stphen.Bialkowski@usu.edu Office: ML-359 Office Hours: MWF 2:30-3:30

This page was last checked and/or edited Monday, April 11, 2005