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2 Course Title Chemistry Course Code BSC503 Lecture Practical Total Course Credit :4 :3 :7 2. Free Energy and Chemical Equilibrium Work function: its physical significance and variation with V and T Free Energy: its significance and variation with P and T G for ideal gases, Gibbs Helmholtz equation and its applications Criteria for chemical equilibrium Vant Hoff reaction isotherm Vant Hoff isochore Law of active mass Clausius Clapeyron equation 3. Crystalline State Difference between crystalline and amorphous solid, Crystal and crystallography Three laws of crystallography Structure of crystals Space lattice and Unit cell, Bravice lattices Type of cubic lattice and inter planar spacing X- rays Diffraction: Brags equation, Experimental methods (Rotating crystal and Powder method), Structure of Rock salt (NaCl) and Sylvin (KCl) Liquid Crystals: Introduction, Definition and Classification of liquid crystals (Smectic, Nematic, Cholesteric and Disc shaped) 4. Phase Rule (1) Three component system, Method of graphical presentation, Types of partially miscible three liquid systems: One partially miscible pair: Effect of adding third compenent,Nature of tie line, Plait point, Binodle curve, Characteristics of diagram, A is added to binery system, A is constant and B and C varied, (2) Formation of two pairs of partially miscible liquid, (3) Formation of three pairs of partially miscible liquid. Application of ternary liquid diagram Unit-2 Section-II Analytical chemistry 28 4 Course Title Chemistry Course Code BSC503 Lecture Practical Total Course Credit :4 :3 :7 1. Errors and statistics Introduction Explanation of errors and mistake Classification of errors, Determinate and indeterminate errors, Operational and personal error, Instrumental errors and reagent errors, additive and proportional error Accuracy and precision, minimization of error Calibration of Instruments , blank measurement , independent method parallel method, Standard addition method Explanation of Significant figure and its laws with complete interpretation Mean and standard deviation , variance and coefficient of variance Absolute error and relative error, mean value, deviation and relative mean deviation. Gausian curve and its explanation Importance of Q – test and T -test ( Student T test ) Example on errors, significant figures , Q test and T test [2] Basic Principle of Qualitative analysis only separation Separation of the following in presence of each other ( by any method) (1) Cl¯ , Br¯ , I¯ (3)S-2, SO3-2 , SO4-2 (5) CO3 , SO3 , S-2 (2) NO-2 , NO-3 , Br¯ (4) PO4-3 , AsO3-3, AsO4-3 (6) Cu+2 , Cd+2 [3] Colourimetry Introduction Growth Drapper law, Lambert’s Law, Beayer’s Law,Lambert’sBeayer’s Law and Derivation, application and deviation of Lambert’s Law Spectro photometric titration with graph and proper explanation (1) Deficit of absorbance by product and Titrant (2) Deficit of absorbance by product and Reagent (3) Deficit of absorbance by Reagent and Titrant (4) Deficit of absorbance by product only [4] Volumetric analysis with example of calculation based on 5 Course Title Chemistry Course Code BSC503 Lecture Practical Total Course Credit :4 :3 :7 pH, normality, molarity, Ksp etc. Ostwald’s law- Regarding indicator – necessary derivation and formula of indicator used in Neutralization, redox, precipitation titration. Primary and secondary standard explanation (1) Explanation of neutralization titration with graph. a) b) c) d) Strong acid - Strong base titration Weak acid - Strong base titration Strong acid – Weak base titration. Poly protic acid - Strong base titration (2) Redox Titration: Principle of external and internal indicator in redox titration. e.g. Diphenyl amine , starch & K3[Fe(CN)6] Redox Titration with graph and calculation Iodometry and Iodimetry titration preparation of standard sodium thiosulphate solution (3) Precipitation Titration: Argentometric Titration (I) Mohar’s method (II) Fazan’s method (III) olhard’s method with use of proper indicator, graph and it’s practical application Examples of calculation based on pH, Normality, Molarity,Ksp etc. Instructional Method and Pedagogy: Lectures will be conducted with the aid of multi-media projector, black board, OHP etc. Assignments based on course content will be given to the students at the end of each unit/topic and will be evaluated at regular interval. Surprise tests/Quizzes/Tutorials will be conducted. The course includes a laboratory, where students have an opportunity to build an appreciation for the concepts being taught in lectures. Minimum ten experiments shall be there in the laboratory related to course contents. Physicochemical Exercise [30 marks] [Minimum 12 exercises should be done] Conductometry 1. To determine normality and gms/lit of xN HCl and also determine 6 Course Title Chemistry Course Code BSC503 Lecture Practical Total Course Credit :4 :3 :7 Specific conductance by conductometry. 2. To determine normality and gms/lit of the mixture of HCl+CH3COOH by conductometry. 3. To determine the normality of weak acid by conductometry. 4. To determine the concentration of Ni+2 using 0.1M EDTA solution. 5. To determine the normality of xNAgNO3 using 0.5N NaCl by Conductometry. pH metry 1. To determine normality of xN HCl by pH metry. 2. To determine normality and dissociation constant of weak acid (xN CH3COOH) by pH metry. 3. To determine normality and dissociation constant of dibasic acid (xN oxalic acid/malonic acid/maleic acid) using 0.1N NaOH Solution. Colourimetry 1. Find out the amount of Ni+2 in the given solution by colourimetry method. 2. Find out the amount of Fe+3 in the given solution by colourimetry method. Viscosity 1. To determine relative and absolute viscosity of pure liquid A, B, C, D by Ostwald’s viscometer. 2. Prepare three different 10%, 5%, 2.5% aqueous solution of Glycerine. Find viscosity of these three solutions as well as unknown Concentration solution with the help Ostwald’s viscometer. Refractometer 1. To determine specific refractivity and molecular refractivity of given pure liquid A, B, C, D. 2. To determine specific refractivity and molecular refractivity of glycerine (10%, 5%, 2.5%) and unknown glycerine solution. 7 Course Title Chemistry Course Code BSC503 Lecture Practical Total Course Credit :4 :3 :7 Reference Books: List of Reference Books Physical Chemistry Elements of Physical Chemistry, S Glasstone and D Lewis, Macmillon and Co Ltd., New Delhi. Principles of Physical Chemistry, S H Maron and C F Prutton, Oxford and IBH , New Delhi. Thermodynamics for Chemists, S Glasstone, Affiliated East West Press Pvt Ltd, New Delhi Elements of Physical Chemistry, B R Puri, L R Sharma, M S Pathania Vishal publishing Co Jalandhar. Advanced Physical Chemistry, J. N. Gurtu, Pragati Prakashan, Meerut. Physical Chemistry, N. Kundu and S. K. Jain, S. Chandand Co. New Delhi Physical Chemistry, K. L. Kapoor, Macmillan India Ltd. Delhi. Physical Chemistry, B. K. Sharma Goel Publishing House, Meerut. Thermodynamics, Dr. Gurdeep Raj, Goel Publishing House Meerut List of Reference Books for Industrial Chemistry Fundamental of analytical chemistry by skoog & west Instrumental method of chemical analysis By B. K. Sharma 22 wilhim Water analysis and nater pollution by V. P. Kudesia Instrumental method of chemical analysis By Chatwal Amreli Thin layer chromatography by Egal stall Book for water analysis: By R.K. Trivali, V. P. Kulesiya. Analysis cal chemistry by click Inorganic inflictive analysis by Vogel and Gehani Parekh Electronic methods of analysis by brewing Principle of instrumental analysis by S korg. 8