
ER20-12P Pharmaceutical Chemistry Practical D Pharm
Pharmaceutical Chemistry Practical D Pharm
| S. No. | Experiment |
| 1 | Limit test for Chlorides Sulphate Iron Heavy metals |
| 2 | Identification tests for Anions and Cations as per Indian Pharmacopoeia |
| 3 | Fundamentals of Volumetric analysis Preparation of standard solution and standardization of Sodium Hydroxide, Potassium Permanganate |
| 4 | Assay of the following compounds Ferrous sulphate- by redox titration (By Cerimetry) Calcium gluconate-by complexometric Sodium chloride-by Modified Volhard’s method (By precipitation method) Ascorbic acid by iodometry Ibuprofen by alkalimetry |
| 5 | Fundamentals of preparative organic chemistry Determination of Melting point of organic compounds Determination of Boiling point of organic compounds |
| 6 | Preparation of organic compounds Benzoic acid from Benzamide Picric acid from Phenol |
| 7 | Identification and test for purity of pharmaceuticals Aspirin Caffeine Paracetamol Sulfanilamide |
| 8 | Systematic Qualitative analysis experiments (4 substances) |
Assignments
The students shall be asked to submit the written assignments on the following topics (One assignment per student per sessional period. i.e., a minimum of THREE assignments per student)
- Different monographs and formularies available and their major contents
- Significance of quality control and quality assurance in pharmaceutical industries
- Overview on Green Chemistry
- Various software programs available for computer aided drug discovery
- Various instrumentations used for characterization and quantification of drug
F Y D Pharm & S Y D Pharm Notes, Books, Syllabus, PDF, Videos
Suggested readings:
Recommended readings:
Active Transport in Drug Dispostion Computational modelling
Active transporters are proteins located in cell membranes that actively move drugs and other molecules across biological barriers.
Computational modelling for Drug Excretion
Computational modeling for drug excretion focuses on predicting how drugs and their metabolites are eliminated from the body,
Computational modelling for Drug Distribution
Computational modeling for drug disposition encompasses the movement and fate of drug molecules within the body after administration,



