My lecture notes will be at least some extent to be on-line throughout the year. However, note the following
Virtual Textbook of Analytical Chemistry
|
The following
web-sites provide
a on-line resources for students, and teachers.
In the changing scenario of Internet world all the information are available
at the tip of figure. Attempts have, therefore, been made to make available
the power point presentations of different topics of analysis. This article
is based on a presentations made by me for the daily class teaching to Pharmacy
students. This will help the students to attempt to keep ahead of lectures in their text
reading. My lecture notes will be at least some extent to be on-line throughout the year. However, note the following |
| U. A. Deokate (M.Pharm.) |
|
This index provides an introduction to some of the fundamental concepts and methods of analytical chemistry. The topics are arranged in the order in which they are commonly presented in an undergraduate analytical chemistry course.
Theory lecturers of Analysis : 
(Newly
edited classroom presentations)
| 1. | Introduction | - | A brief introduction to analytical chemistry and analytical methods. |
| 2. | Optical Method of analysis | - | Introduction to optical methods of analysis, EMR, characteristics of EMR, electromagnetic spectrum |
| 3. | Introduction to Absorption spectroscopy | - | Introduction to absorption spectroscopy with descriptions of absorption, emission, scattering, and links to the Beer-Lambert Law and advanced examples. |
| 4. | General Instrumentation for Optical spectroscopy | - | Introduction to general components of optical spectroscopy |
| 5. | Statistical Treatment of Analytical Data | - | Definitions of accuracy and precision, and the basics of significant figures and statistics |
| 6. | Laboratory training module | - | Basic laboratory training module |
| 7. | UV-Visible spectroscopy | - | Introduction, Principal of UV-visible spectroscopy, electronic transactions involved in it. |
| 8. |
|
- | Application of woodward Fieser rule for calculations of Lambda max position. |
| 9. | I.R. Spectroscopy | Introduction, Principal of IR spectroscopy, theory, Vibration transaction involved Instrumentation etc. | |
| 10. | Fluorescence and Phosphorescence spectroscopy | Introduction, Principal Instrumentation and applications | |
| 11. | Flame Emission spectroscopy | Introduction, Principal Instrumentation and applications | |
| 12. | NMR Spectroscopy | Introduction, Principal Instrumentation and applications | |
| 13. | Mass spectroscopy | Introduction, Principal Instrumentation and applications | |
| 14. | Chromatography (Introduction) | Definitions, Classification and types of Chromatography | |
| 15. | Thin Layer Chromatography | Introduction, Principal Instrumentation and applications | |
| 16. | Column chromatography | Introduction, Principal Instrumentation and applications | |
| 16. | Gas chromatography | Introduction, Principal Instrumentation and applications | |
| 17. | Gravimetric analysis | Introduction, Principal Instrumentation and applications |
Chars of Analysis Practicals: (Laboratory charts)
Instrumental methods (P.A. II)
| Exp. No.1 | - | Determine the strength of given hydrochloric acid using PH metric titration |
| Exp. No.2 | - |
Determine the pKa Value of given acid using PH meter. |
| Exp. No.3 | - | Determine the Formal Redox Potential of Ferrous Sulphate using Potentiometric titration |
| Exp. No.4 | - | Determine the strength of given hydrochloric acid using conductometric titration |
| Exp. No.5 | - |
Determine the strength of given mixture of acid (HCl, Acetic acid) using Conductometric titration |
| Exp. No.6 | - |
To find out Specific Rotation and Determination of Concentration of Dextrose Injection I.P |
| Exp. No.7 | Estimation of Potassium by Flame Photometry. | |
| Exp. No.8 | Selection of filter (lmax) for KMnO4 / K2Cr2O7 by colorimetric measurement. | |
| Exp. No.9 | Verify Beer’s law of colorimetric measurement and to find out the unknown concentration of given sample of KMO4 | |
| Exp. No.10 | Estimation of Quinine Sulfate by Flurometry. |
Chemical methods (P.A. I)
| Exp. No.1 | - | Basic Tool And Operation In Analytical Chemistry. Titration Tips |
| Exp. No.2 | - |
Calibrations of glass wares used in pharmaceutical analytical chemistry laboratory. |
| Exp. No.3 | - |
Preparation and standardization of 0.1M sodium Hydroxide solution I.P. |
| Exp. No.5 | - |
Preparation and standardization of 0.1M Hydrochloric acid solution against sodium carbonate. |
| Exp. No.6 |
To determine the percentage purity of given sample of Boric Acid I.P. |
|
| Exp. No,7 |
To determine the percentage purity of given sample of Aspirin I.P. |
|
| Exp. No.8 |
Preparation and standardization of 0.1N KMnO4 solution against sodium Oxalate |
|
| Exp.No.9 | Determination of percentage purity of ferrous sulphate | |
| Exp. No. 10 |
Preparation and standardization of 0.05M Iodine solution against Arsenic trioxide |
|
| Exp. No.11 | Determination of percentage purity of ascorbic acid I.P |
Copyright © by U. A. Deokate, all rights reserved.
Last edited on: Thursday, 03 June 2010 07:31:41 PM +0530