1 Introduction
Sample size
Chemical purity
Pharmacopœia
Pharmacopœial monographs
2 General Instructions & Basic Laboratory Techniques
General instructions
Basic laboratory techniques
Cleaning of glass apparatus
Dilution of concentrated acids
Analytical balance
Weight box, Weighing
Calibration of weights
Quantitative transfer of a substance to a graduated flask
Instruments used for measuring liquids and their Calibration
Desiccators and desiccants
Stirring of liquids
Boiling rods and policeman
Filtration
Distillation
Extraction with a solvent
Crystallization
Experimental techniques in semi-micro procedure
Preparation of the original solution (O.S.) of an inorganic mixture
Spot tests techniques
Determination of melting point
Determination of boiling point
Purification of the solvents
Drying by simple distillation
Preliminary tests for Inorganic substances
Cobalt nitrate test
Flame test
Oxidising fusion mixture test
Borax-bead test
Micro cosmic salt-bead test
Constant Weight of the crucible (in gravimetry)
Evaporation
3 Basic Principles of Chemical Analysis
Polar and non-polar solvents
Acids and bases
Relative strengths of acids and bases
Salts
Law of mass action and its applications
Ostwald's dilution law
Common-ion effect
Solubility product
Application in separation of IInd and IV groups cations
Complex ions
Oxidation and reduction
Oxidation number
Ionic product of water
Hydrogen ion exponent (pH)
Buffer solutions
Hydrolysis of salts
Colloidal state
Peptisation
Flocculation (coagulation)
Adsorption and absorption
Co-precipitation
Post-precipitation
Digestion
Optimum conditions and completeness of precipitation
Characteristics of a substance as a precipitate in the gravimetry
Titrimetric glossary
Strength (concentration) of a solution
Characteristics of a chemical reaction for use in titrimetry
Primary requirements of a titrimetric analysis
Types of reactions used in titrimetric analysis
Primary standards
Secondary standards
Indicators
Acid-base indicators
Precipitation indicators
Redox indicators
Metallochromic indicators
Preparation of a standard solution
Aliquots
Mixed indicators
Neutralisation curves
Polyprotic systems
Preparation of some standard solutions
Recording of observations in titrimetry
Some additional instructions for titrimetric exercises
4 Errors and Computation of Analytical Data
Units and dimensions
Mathematical symbols
Exponents
Extensive, intensive and proper quantities
Dimensional analysis
Logarithm
Atomic masses, the mole and the Avogadro's number
Significant figures
Precision and accuracy
Accuracy
Classification of errors
Minimisation of errors
Testing for significance
Confidence limit
Rejection of a result
How to report analytical data
Statistical parameters and analytical data
Propagation of determinate errors
Propagation of indeterminate errors
5 Systematic Qualitative Analysis (Semi-micro Scale)
Analysis of anions–acid radicals
Group I (dilute H2SO4), Group II (conc. H2SO4), Group III (other anions not covered in gp I and II)
Special tests for combination of anions
Interfering acids and their removal
Analysis of cations–basic radicals
Group I, Group II, Group III, Group IV, Group V, Group VI
Test for NH4+ cation
6 Gravimetry
Precipitation methods
Procedure for gravimetric analysis
Sampling, dissolution, precipitation
Precipitation from homogeneous solution
Digestion and curing
Filtration and washing
Drying of precipitate
Ignition and incineration
Treatement of ash
Gravimetric calculations
Some gravimetric factors
Gravimetric numerical problems
Simple Gravimetric Determinations
Iron (as Fe2O3); Barium (as BaSO4), Sulphate (as BaSO4), Silver (as AgCl), Chloride (as AgCl), Aluminium (as Al2O3),
(Aluminium (as oxinate), Lead (as chromate), Calcium (as CaCO3 or CaO), Zinc as (zinc ammonium phosphate or as pyrophosphate),
Magnesium (as magnesium ammonium phosphate or pyrophosphate), Magnesium (as oxinate), Water of crystallization (in BaCl2•2H2O),
Nickel (as Ni-dimethyl gyoxime chelate), Barium (as chromate), Assay of BaSO4, zinc (as oxide), copper (as cuprous thiocyanate),
Gravimetric determinations (summary)
Amodiaquine hydrochloride as amodiaquine base
Thiamine hydrochloride as thiamine silicotungstate
Benzylpenicillin
Histamine as histamine nitranilic acid complex
Proguanil as proguanil cupric complex
Percentage of gold in sodium auriothiomalate
Caffeine citrate as anhydrous caffeine
Total alcohol in sodium lauryl sulphate
Cholesterol (%) as the cholesterol-digitonin complex
Thermogravimetric curves
Organic precipitants (general)
Some important organic precipitants
7 Pharmacopœial Substances and their Titrimetric Assays
Introduction
Acidimetry and alkalimetry
Standardization of acids and bases
Direct titration of weak acids
Special modifications in direct titrations of weak acids
Direct titration of strong acids
Direct titration of strong bases
Special modifications in the direct titration of strong bases
Back titrations
Back titrations with blank determination
Alkalinity of natural waters and is determination
Pharmacopoeial substances
(Chemistry) and therapeutical types:
Sodium hydroxide, Alkalisers, Hydrochloric acid, Acidifiers, Sulphuric acid, Astringent, Topical agents, Phosphoric acid, Boric acid, Borax, Sodium bicarobonate,
Sodium carbonate, Calcium hydroxide, Ammonia solutions, Calcium carbonate, Ammonium chloride,
Expectorant, Magnesium hydroxide
8 Titrations in Non-aqueous Solvents
Introduction
Solvent systems in non-aqueous media
Differentiating and levelling solvents
Dielectric constant
Completeness of the titration reaction
Effects of concentration
Titrants
Effect of temperature on Non-aqueous titrations
Indicators in non-aqueous titrations
Standard 0.1N HClO4 solution
Solvents for nonaqueous titrations
Potentiometric titrations in nonaqueous solvents
Glass electrode, calomel electrode, Silver – silver chloride—reference electrode, Double-junction reference electrode
Preparation of silver–silver chloride electrode
Apparatus and assembly for potentiometric titrations
Standard 0.1 N, 0.05 N, and 0.02 N HClO4 solutions
and its standardization with KHP
Preparation of standard 0.1N CH3COONa
solutions and its standardization
Relative concentrations of HClO4 and NaOOCCH3
Determination of the percentage purity of a hyderated sodium acetate sample
Determination of amines
Determination of the % of nitrazepam
Determination of amino acids
Alternative procedure
Determination of phenols
Percentage purity of adrenaline
Titration of halogen salts of organic bases
Determination of benzhexol hydrochloride
Determination of Acidic Substances
Preparation of 0.1 lithium-methoxide
Preparation of 0.1 N CH3OK and its standardisation
Preparation of 0.1 N tetrabutylammonium hydroxide and its standardisation
Determination of amylobarbitone
Determination of phenobarbitone
Determination of sulphonamides
Excipients
Table of non-aqueous analysis of official compounds in IP
(using 0.1N HClO4)
9 Complexation Titrations
Introduction
Chelate effect
Chelating agents
EDTA titrations and equilibria
Significance of
ay4
Conditional formation constant
Masking and demasking
Titration curves
Feasibility of complexometric titrations
Types of EDTA titrations
Indicators for complexometric (EDTA) titrations
Preparation and standardisation of sodium EDTA solution
Complexometric Titrations of Some Metals with EDTA
Calcium, Chemistry of calcium chloride, Calcium carbonate, Dibasic
calcium phosphate, Tricalcium phosphate, Determination of Ca, in an insoluble salt like phosphate, Calcium gluconate, Dentrifices,
Calcium (D in gluconate), Calcium (displacement titration), Chemistry of
Magnesium oxides (magnesia), Magnesium hydroxide, Magnesium carbonate,
Laxative, Magnesium sulphate, Magmesium chloride, Magnesium (titration),
Calcium and magnesium present together (titration)
Total hardness of water
Permanent and temporary hardness of water separately
Magnesium trisilicate
Determination of Mg and SiO2 in magnesium trisilicate
Chemistry of aluminium hydroxide
Aluminium (back tiration)
Chemistry of bismuth subcarbonate, Bismuth subsalicylate, Bismuth subcitrate, Bismuth
Zinc, Chemistry of zinc, Zinc Chloride, Zinc sulphate, Zinc Oxide, Zinc