Analytical Instruments & Bioanalysis
Course Description
This course is an introduction to instrumental analysis - that is, the measurement of chemical systems using instruments. Throughout the course, the principles underlying common instrumental methods will be discussed in lectures.
Each type of instrument has a unique set of strengths and weaknesses that makes it suitable for some measurements but not others. Some techniques are best for qualitative determinations and others are best for quantitation. During this course, you should develop an understanding of these advantages and disadvantages and ultimately be able to suggest suitable instrumental methods for particular problems.
It is important to note that the purpose of this course is not to teach you how to operate a particular instrument: there are far too many different instrument designs. However, each class of instrument is based on a similar measurement of a chemical or physical property. Therefore, if you understand the basic operation of each method, you should be able to operate any instrument based on similar principles.
Each type of instrument has a unique set of strengths and weaknesses that makes it suitable for some measurements but not others. Some techniques are best for qualitative determinations and others are best for quantitation. During this course, you should develop an understanding of these advantages and disadvantages and ultimately be able to suggest suitable instrumental methods for particular problems.
It is important to note that the purpose of this course is not to teach you how to operate a particular instrument: there are far too many different instrument designs. However, each class of instrument is based on a similar measurement of a chemical or physical property. Therefore, if you understand the basic operation of each method, you should be able to operate any instrument based on similar principles.
Course Goals
Discuss theory and background for
(1) chemical/physical property measured
(2) origin of chemical/physical property
(3) instrument design and nature of response
(4) signal processing and relationship between readout
to property measured
(1) chemical/physical property measured
(2) origin of chemical/physical property
(3) instrument design and nature of response
(4) signal processing and relationship between readout
to property measured
Course Textbooks
Principles of Instrumental Analysis, Sixth Edition by: Douglas A. Skoog, F. James Holler, Stanley R. Crouch Password: ebooksclub.org
Undergraduate Instrumental Analysis, Sixth Edition
Undergraduate Instrumental Analysis, Sixth Edition
Course Skills
At the end of this course the students could:
(1) know the current modern analytical instrumentation.
(2) Have good background about the theory and principles of operation.
(3) Learn the chemical or physical principles exploited during the measurement,
(4) Know how the instrument actually makes the measurement
(5) know some of the techniques used to increase accuracy, precision and sensitivity.
(1) know the current modern analytical instrumentation.
(2) Have good background about the theory and principles of operation.
(3) Learn the chemical or physical principles exploited during the measurement,
(4) Know how the instrument actually makes the measurement
(5) know some of the techniques used to increase accuracy, precision and sensitivity.
Course Slides
Lecture presentation of November 28, 2010 Download Introduction to Instrumental analysis
Lecture presentation of December 5, 2010 Introduction to Medical laboratory department
Lecture presentation of December 5, 2010 Introduction to Medical laboratory department
lecture2.ppt | |
File Size: | 4977 kb |
File Type: | ppt |
Lecture presentation of December 19, 2010 Introduction to Spectroscopy
Lecture presentation of December 26 2010 Beer Law From the text
Lecture presentation of January 2, 2011 Pulse Oximeter
pulse-oximeter.rar | |
File Size: | 5070 kb |
File Type: | rar |
Lecture Code of January 9, 2011 Spectrophotometer
spectrophotometer.pptx | |
File Size: | 1799 kb |
File Type: | pptx |
Lecture Code of January 16, 2011 Blood Gas Analyzer + Blood cell counter
cell_counter.pptx | |
File Size: | 400 kb |
File Type: | pptx |
Course Sheet
sheet.pdf | |
File Size: | 244 kb |
File Type: |
Course Exam
2010-2011 Midterm Exam
midterm_answersa.pdf | |
File Size: | 44 kb |
File Type: |
Course Labs: Eng Husam
Lab1
Grading Policy
Term Exam: 50 points
Midterm Exam: 15 Points
Lab: 20 Points
Class Project: 20 Points
Other (Homework assignments, quizzes, etc.): 10 points
Grade will be the summation of all of the above weighted by your attendance percentage. Failing to attend at least 80% of the classes will result in a failing grade in this class.
Midterm Exam: 15 Points
Lab: 20 Points
Class Project: 20 Points
Other (Homework assignments, quizzes, etc.): 10 points
Grade will be the summation of all of the above weighted by your attendance percentage. Failing to attend at least 80% of the classes will result in a failing grade in this class.
Course Project
Every three students have to work in group: See an example of good project Here
Deadline is 15/01/2011
Deadline is 15/01/2011
Useful Links
http://www.chem.ufl.edu/~cao/chm4130/Lectures.html
http://loer.tamug.edu/Loup/MARS450/MARS450.htm
http://www.cem.msu.edu/~cem333/LectureMenu.html
http://www.hitachi-hitec.com/global/science/uv_vis/uv_basic_2.html
http://www.shsu.edu/~chm_tgc/primers/spect.html
http://www.shsu.edu/~chm_tgc/CCE/animations.html
http://cires.colorado.edu/jimenez/CHEM-4181/
http://loer.tamug.edu/Loup/MARS450/MARS450.htm
http://www.cem.msu.edu/~cem333/LectureMenu.html
http://www.hitachi-hitec.com/global/science/uv_vis/uv_basic_2.html
http://www.shsu.edu/~chm_tgc/primers/spect.html
http://www.shsu.edu/~chm_tgc/CCE/animations.html
http://cires.colorado.edu/jimenez/CHEM-4181/