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S.No |
Course No. |
Title |
Credit Hours |
Page No. |
1 | Phy.Chem:601 | Adv. Mathematics for Chemist |
3
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1
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2 | Phy.Chem:602 | Statistical Treatment of Experimental Data |
3
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2
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3 | Phy.Chem:701 | Chemical Kinetics |
3
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3
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4 | Phy.Chem:702 | Chemical and Statistical Thermodynamics |
3
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4
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5 | Phy.Chem:703 | Quantum Chemistry |
3
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5
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6 | Phy.Chem:704 | Molecular Spectroscopy |
3
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6
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7 | Phy.Chem:705 | Electrochemistry |
3
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7
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8 | Phy.Chem:706 | Environmental Chemistry |
3
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8
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9 | Phy.Chem:707 | Colloid Chemistry |
3
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9
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10 | Phy.Chem:708 | Polymer Chemistry |
3
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10
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11 | Phy.Chem:709 | Instrumental Method of Analysis |
3
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11
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12 | Phy.Chem:710 | Heterogeneous Catalysis: I-Principles |
3
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12
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Course No.: Phys. Chem. 601
Credit Hours: 3.0
Title: Adv. Mathematics for chemists
- Concept of Functions and Their Graphs:
Logarithmic, Exponential, Trigonometric, Inverse functions, Partial fractions.
- Coordinate systems:
Rectangular, Plain polar and spherical polar, Elliptical.
- Dimensional analysis and units:
Force, Pressure, Energy.
- Differentiation using Ab Initio method:
Rules for differentiating Logarithmic, exponential, trigonometric functions, and polynomials, Second order differentiation and concept of minima, maxima and inflection point. Partial differentiation and its geometric meaning.
- Integration:
Definite and Indefinite Integrals, Rules for Integration of polynomials, Logarithmic, exponential and trigonometric functions.
- Differential equations:
First order, second order, homogeneous partial differential equation of second order & first degree.
- Probability:
Definition of probability, Combination and permutation, Concept of factorial, Calculation of average, second moment, variance and standard deviation, Concept of distribution function.
- Series and limits:
Arithmetic and geometric series MaClaurin’s series, L’Hopital Rule.
Recommended Books
1 |
P. Tebbutt |
Mathematics for ChemistsJohn Wiley, 1998. |
|
|
|
2 |
D.M. Hirst |
Mathematics for ChemistsMacmillan, |
3 |
E. Steiner |
The Chemistry Maths BookOxford, 1996. |
Course No. Phy: Chem: 602
Credit Hours: 3.0
Title: Statistical Treatment of Experimental Data
- MEASUEMENTS, ERRORS AND ESTIMATES:
Limitation of analytical methods, Classification of Errors, Accuracy, Precision, Measurement of Central Tendency, Mean, Measurement of Dispersion, The standard Deviation, Standard Deviation and the Z-value
- DISTRIBUTION OF DATA AND UNCERTANTIES:
Distribution of random error, Probability and random error, The standard normal curve, Normally distributed random variable, Normal probability plot.
- TESTS FOR THE RELIABILITY OF RESULTS:
Confidence interval and the students, Comparison of means of two samples, Tests of significance, Criteria for rejection of the data, the Q value Control Charts
- ACCURACY AND PRECISION IN HANDLING RESULTS:
Significant figures and computation rules, the propagation of random error, the propagation of systematic error
- THE ELEMENTARY STATISTICS OF CALIBRATION:
Filling a straight line to calibration data, linear regression with one independent variable, the coefficient of determination, linear correlation
Recommended Books
1 |
M. Cario, |
Measurement Analysis: An introduction to the Statistical Analysis of Laboratory Data in Physics, Chemistry and Life Science. |
2 |
D. McCormick & A. Roach |
Measurement, Statistics and Computation. |
3 |
D.C. Harris, |
Quantitative Chemical Analysis |
4 |
N.A. WEIS |
Introductory Statistics, |
Course No: 701
Credit Hours: 3.0
Title: Chemical Kinetics
1 |
Basic Kinetics Concepts:Scope of chemical kinetics, Reaction Stoichiometry, rates of consumption and formation, Extent of Reaction, Rate of reaction, Empirical rate equation, Elementary, composite and Chain reactions |
2 |
Analysis of Kinetics Results:Differential Method, Method of integration, Isolation method, Half life method, Comparison of methods, Opposing reactions, Reaction in flow system, Correlation of physical properties with concentration, Conventional experimental techniques, Techniques for very fast reactions and influence of temperature on reaction rates |
3 |
Mechanism of Elementary Reactions:Potential energy surfaces, Kinetic theory of collision, Conventional transition state theory and its application, Comparison of two theories, Thermo chemical formulation of transition state theory, Lindemann Christiansen hypothesis for uni-molecular reactions, Kinetics isotope effect. |
4 |
Reactions in solutions: |
5 |
Composite Reactions:Parallel reactions, Consecutive reactions, steady state treatment, Reactions involving free radical mechanism, |
.
Recommended Books
1 |
P. L. Houston, |
Chemical Kinetics and Reaction Dynamics |
2 |
M. Mortimer |
Chemical Kinetics and Mechanism |
3 |
G. D. Billing |
Advanced Molecular Dynamics and chemical Kinetics. |
4 |
K. J. Laidler, |
Chemical Kinetics, 3rdedition,Harper and Row, 1987. |
5 |
Steinfeld, Francisco and Hase |
Chemical Kinetics and Dynamics, |
Course No: Phy. Chem: 702
Credit Hours: 3.0
Title : Chemical and Statistical Thermodynamics
- INTRODUCTION:
Fundamental concepts, the Zeroth law.
- Energy and First law of Thermodynamics:
Heat flow, heat capacity and work and heat, Energy as state function, empirical temperature enthalpy energy equation of steady flow, the heat engine and the refrigerator.
- SECOND AND THIRD LAW OF THERMODYNAMICS:
Entropy, Clausius and Kelvin-Planck statements of the second Law, Helmholtz and Gibb”s function. The third law,
- STATISTICAL THERMODYNAMICS:
Introduction: Macroscopic and microscopic variables, The Bose-Einstein statistics, The Fermi-Dirac statistics. The Maxwell Boltzmann statistics, Distribution function, Partition function, applications.
RECOMMENDED BOOKS
1 |
F. W.Sears |
Thermodynamics, Kinetic Theory and Statistical Thermodynamics (3rd Edition)John Wiley, 1975. |
2 |
B.N. Roy |
Fundamentals of Classical and Statistical Thermodynamics |
3 |
H.B. Callen |
Thermodynamics and Introduction to Thermostatistics, 2nd Edition |
Course No.: Phys. Chem: 703
Credit Hours: 3
Title: QUANTUM CHEMISTRY
I |
Introduction: |
2 |
Free/Bound Particles: |
3 |
Quantum Mechanics: |
4 |
The Harmonic Oscillator: |
5 |
Angular Momentum: |
6 |
The Hydrogen Atom: |
7 |
More Quantum Mechanics: |
8 |
Approximations in Quantum Mechanics: |
9 |
Multi-electron Systems: |
10 |
Molecular Systems: |
11 |
Theoretical Quantum Chemistry: |
Recommended Books
1 |
P. W. Atkins, R. S. Friedman |
Molecular Quantum Mechanics, Oxford, 1996 |
2 |
D. A. McQuarrie, |
Quantum Chemistry, University Science Books, 1983 |
3 |
I.N. Levine |
Quantum Chemistry, Prentice Hall, 2000 |
4 |
J. P. Lowe |
Quantum Chemistry, Academic Press, 1993 |
Course No: Phy.Chem: 704
Credit Hours: 3.0
Title: MOLECULAR SPECTROSCOPY
1 |
Introduction: |
2 |
Pure Rotation Spectra: |
3 |
Vibrations of Molecules: |
4 |
Electronic Spectroscopy, Diatomic Molecules: |
5 |
Electronic Spectroscopy, Polyatomic Molecules: |
6 |
Resonance Spectroscopy: |
Recommended Books
1 |
J. M. Brown |
Molecular Spectroscopy |
2 |
S. Duckett |
Foundation of Spectroscopy |
3 |
C. Banwell |
Fundamentals of Molecular Spectroscopy |
4 |
J. M. Hollans |
Modern Spectroscopy |
5 |
J. I. Steinfeld |
Molecules and Radiation: An Introduction to Modern Molecular SpectroscopyMIT Press, 1978 |
Course No.: Phys.Chem. 705
Credit Hours. 3.0
Title: Electrochemistry
1 |
Basic electrochemistry: |
2 |
Electrodes and electrolytes: |
3 |
Electroanalytical Techniques: |
4 |
Applications: |
Recommended Books
|
Electrochemistry: Principles, Methods, and Applications |
2. F, Scholz (Ed.) |
Electroanalytical Methods: Guide to Experiments and Applications,Springer-Verlag, Berlin, 2002. |
|
Electrochemical Sensors in Bioanalysis |
Phys.Chem. 706
Credit Hours: 3.0
Title: Environmental Chemistry
1 |
Introduction: |
2 |
Air Pollution: |
3 |
Water Pollution: |
4 |
Solid Pollutants: |
5 |
Toxic and Hazardous Waste: |
Recommended Books
1 |
S. E. Manahan |
Environmental Chemistry, |
2 |
C. Baird |
Environmental Chemistry |
3 |
S. S. Dara |
A Text Book of Environmental Chemistry and Pollution Control |
4 |
S. Chose |
Environmental Chemistry |
Phys.Chem.: 707
Title: Colloidal Chemistry
1 |
Colloidal Materials: |
2 |
Colloidal Forces: |
3 |
Electrokinetic Phenomena: |
4 |
Colloidal Association: |
Recommended Books
1 |
P.c. Hiemenz, R. Rajagopalan |
Principles of Colloidal and Surface Chemistry, |
2 |
A.W. Adamson |
Physical Chemistry of Surfaces |
3 |
D. F. Evans, H. Wennerstrom |
The Colloidal Domain: Where Physics, Chemistry, Biology and Technology Meet. |
4 |
R. J. Huntetr |
Foundation of Colloid Science, Volume I., |
5 |
W. B. Russel, D. Saville, W. Schowalter |
Colloida; Dispersions, |
Phy.Chem. 708
Credit Hours: 3.0
Title : Polymer Chemistry
- Introduction:
The Science of large molecules, basic concepts of polymer science, History of macromolecular science, molecular forces and chemical bonding in polymers.
- Polymer Synthesis:
Step Growth polymerization, Free Radical Chain Polymerization Ionic, Polymerization, Co-polymerization, emulsion polymerization.
- Characterization of polymers:
Dissolution of polymers, Solubility parameters, Entropy of mixing. End Group Analysis, Colligative property, Measurement, Light Scattering, Solution viscosity, Ultracentrifugation.
- Thermal and Mechanical Properties of Polymers:
The Glass Transition Temperature (Tg), Methods of determining the Tg, Viscoelastic state, linear viscoelastic behaviour of amorphous polymers, Time-Temperature superposition Principle.
- Structure Property Relationship:
General consideration, Control of Tm and Tg, Plasticizers, Crystallinity and Mechanical response, Applications to fibers, elastomers and plastics.
- Special topics in Polymer Chemistry:
Polymer Liquid Crystals, Polymers in Electronic Industry, Polymer composites and Blends, Polymers and Environment, High Temperature specialty polymers, Poly electrolytes, Polymers for food packaging Degradable polymers.
Recommended Books
1 |
J.MN.G. Cowie |
Polymers: chemistry and Physics of Modern Materials ( 2nd Edition)Blackie glasgow, 2001. |
2 |
George Odian |
Principles of Polymerization (2nd edition), John Wiley (1981). |
3 |
R.B. Seymour, C.E. Carraher |
Polymer Chemistry |
4 |
R. Sheldon |
Composite Polymeric Materials |
5 |
J.W. Nicholson |
The chemistry of polymers (2nd Edition) |
Course No.: Phys. Chem. 709
Credit Hours: 3.0
Title: Instrumental Methods of Analysis
- Introduction:
Introduction to instrumental methods, its comparison with classical methods of analysis Importance. Electromagnetic Radiations: Theirnature, spectrum, regions. Interaction with matter.
2. Absorption Methods / Emission methods.
UV/Vis spectroscopy: theory, Beer;s Law, its deviation instrumentation, sources of radiation, detectors, various spectrophotometers ( single and double beam ).
3.. Atomic Absorption Spectroscopy:
Instrumentation, optical atomization, detection limit, interferences.Flame photometry, flame emission spectroscopy.
4..Electron and Ion Spectroscopic Methods:
Scanning electron microscopy. Principle, instrumentation, limits Transmission electron microscopy. Principle, instrumentation, limits transmission electron.
5..I.R. Spectroscopy :
Principle , instrumentation, sources of radiation, I.R. Spectral assignment for single compounds. Fomier transform I.R. For, Mid and Near I.R.
6..Electrochemical Methods:Potentiometry:
Conductiometry, Polmography, stripping voltammetry.Instrumentation and applications Mobility and Zeta Potential Measurement.
- Thermometric Techniques:
Thermograrimetric analysis (TGA)/, Differential thermal analysis (DTA), and Differential Scanning calorimetry (DSC): Instrumentation and application.
Recommended Books
1 |
D.A. Skoog |
Principles of Instrumental analysis, 5thed.Brooks Cole, 1997. |
2 |
K. A, Robinson J. F. Robinson |
Contemporary Instrumental AnalysisPrintice Hall, 2000. |
3 |
Frank A, Settle |
Handbook of Instrumental Techniques for Analytical Chemistry |
4 |
D. A. Skoog |
Fundamental of Analytical ChemistryPrintice Hall, 1997. |
5 |
G. W. Ewing |
Instrumental Methods of Chemical analysisMcGraw-Hill, 1988 |
Course No.: Phy.Chem: 710
Credit Hours: 3
Title: HETEROGENEOUS CATALYSIS: I-Principles
Introduction:Historical, Definition of catalysis, The basis of catalytic action, Requirement of an industrially useful chemical reaction, Kinetics of catalyzed reaction, Implication of the definition of catalysis, Catalysts in action, Classification of catalytic systems, Classification of solid catalysts. |
Adsorption on Solid Surfaces:Adsorption of molecule at solid surfaces, Adsorption isotherms, Surface area and porosity. |
Chemisorption at Metal Surfaces:Metal surface for fundamental research, Adsorbed states of molecules on metals, Potential-energy curves for adsorption, Descriptive chemistry of chemisorption on metals, Quantitative aspect of chemisorption on metals. |
Chemisorption at Oxide Surfaces:Introduction, Electrical conductivity of solids, The Band Theory of solids, Chemisorption at semi conducting oxides, Adsorption on insulator oxides. |
Kinetics of Catalyzed Reactions:Rates and order of reactions, Effect of temperature on the rates of catalyzed reactions, Mass-transport limitation of catalyzed reactions. |
Recommended Readings:
1 |
M. Bowker |
Basics and Application of Heterogeneous Catalysis |
2 |
B.C. Gates |
Catalytic chemistry |
3 |
G.C.Bond |
Heterogeneous Catalysis: Principals and applications, |
4 |
M. Boudart and G.D. Mariadassou |
Kinetics of Heterogeneous catalytic reactions, |
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The National Centre of Excellence in Physical Chemistry was established in July 1978 under an Act of Parliament as an autonomous body to be administered by Federal Ministry of Education through University Grants Commission, (Now Higher Education Commission, HEC).
The management of the Centre is supervised by a Board of Governors (BOG) comprising of eminent scientists and representatives of Federal Government with Vice Chancellor, University of Peshawar, as its Chairman.
The Centre is entrusted with the main task of establishing research facilities in Physical Chemistry leading to M.Phil and Ph.D degrees. A significant number of M.Phil and Ph.D. scholars have qualified from this institution.
The total number of Ph.D produced until year September 2016 are 97 while 213 M.Phil scholars have passed out. More than 606 research papers have been published in journals of both national and international repute since inception.
At the moment 36 Ph.D and 67 M.Phil students are enrolled. Other regular activities of the Centre include in-Service training programmes, symposia, seminars refresher courses for college teachers and so on. Collaboration in research and academic activities with a number of organizations has been developed, e.g. Nuclear Institute for Food and Agriculture (NIFA), Institute of Chemistry (University of Peshawar), PINSTECH, Islamabad, Agriculture University (Peshawar), Engineering University (Peshawar), Islamia College University (Peshawar), PCSIR Laboratories (Peshawar) etc.
Research facilities are extended to all academic, research organizations as well as to industries in the area to deal with their research and industrial problems.
An research journal “Physical Chemistry ” is regularly published by the Centre. Regular weekly seminars is also an important feature of the academic activity where local speakers or Scientist from other parts of Pakistan or world deliver talks.
Yours comments and suggestions will be welcomed to improve the performance of the Center and to make this website more helpful.
Prof. Dr. Abdul Naeem Khan
Professor and Director,
NCE Physical Chemistry, University of Peshawar,
Peshawar 25120. Pakistan
Phone 091-9216766 Fax: 091-9216671
E-mail: naeeem64@yahoo.com
- Details
- Written by: Administrator
- Category: Uncategorised
- Hits: 549
S.No | Course No | Title | Credit Hours | Nos |
1 | Phy.Chem:811 | Surface Chemistry |
3
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13
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2 | Phy.Chem:812 | Electrodics |
3
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14
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3 | Phy.Chem:813 | Thermochemistry and Thermochemical Energetics |
3
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15
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4 | Phy.Chem:814 | Heterogeneous Catalysis: II-Applications |
3
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16
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17 | Phy.Chem:815 | Ion Exchange |
3
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17
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18 | Phy.Chem:816 | Radiation Chemistry |
3
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18
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19 | Phy.Chem:817 | Aquatic Chemistry |
3
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19
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20 | Phy.Chem:818 | Modern Chromatographic Techniques |
3
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20
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21 | Phy.Chem:819 | Tribology |
3
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21
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22 | Phy.Chem:820 | Photochemistry |
3
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22
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23 | Phy.Chem:821 | Gas phase Uni-molecular Reactions |
3
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23
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24 | Phy.Chem:822 | Mass Spectrometry |
3
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24
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25 | Phy.Chem:823 | Modern Gas Kinetics Techniques |
3
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25
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26 | Phy.Chem:824 | Physical Organic Chemistry |
3
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26
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27 | Phy.Chem:825 | Special topics in Physical Chemistry |
1
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-
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28 | Phy.Chem:826 | Term paper |
1
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-
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29 | Phy.Chem:827 | Seminar |
1
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-
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Phys. Chem. 811
Credit Hours: 3.0
Title : Surface Chemistry
- Introduction
The behavior of solid/gas, solid/liquid, liquid/gas and Liquid/liquid interfaces/Adsorption interfacial, tension, applications of surface Chemistry.
- Solid/Gas Interface
Adsorption of gases on solids, fundamental equation of adsorption.Henry, frundlich, Temkin, BET isotherms and their properties.Thermodynamics of gas adsorption spectroscopic studies of adsorption.
- Solid/Liquid Interface
Contact angles and wetting , wetting agents, Detergency. Ore Flotation, Adsorption from solution, Composite isotherms and their interpretation.
- Liquid/Gas & Liquid/Liquid Interfaces
Adsorption and orientation at interfaces, Surfactants Gibbs adsorption equation and its applications Micells.Mono-molecular films.
- Charged Interfaces
The Electrical double layer, HelmHotz, Chapman and Stern Treatment of EDL. The surface charged chemistry of oxide / water interfaces. Theory of double layer of adsorption of organic compounds.
Recommended Books
1 |
M. J. Cock |
Chemistry of Interfaces |
2 |
J. Oscik |
Adsorption |
3 |
D. J. J. Shaw |
Introduction to colloid and Surface Chemistry |
4 |
A.W. Adamson |
Physical Chemistry of Surfaces |
5 |
W. Stuman |
Chemistry of the Solid-water Interface |
6 |
Heimerz* |
Principles of Colloids and Surface chemistry |
Phys. Chem. 812
Credit Hours: 3.0
Title: Electodics
1 |
Voltametry:Current voltage curve, Reversible and irreversible electrode processes, Factors contributing voltage, Different kinds of overvoltages, Hydrogen and oxygen overvoltage, Butler Volmer equation for simple electron transfer reactions, Transfer coefficient exchange current density, Rate constants, Tafel equation |
2 |
Electrical Double Layer:Theory of electrical double layer, Capacity of double layer and its determination, electrocapilirity, |
3 |
Polarography:Principles and applications, Limitation of conventional polarography, applications of polarographic measurements, Different types of polarographic waves and their characteristics. |
4 |
Modern Electro Analytical Techniques:AC polarography, Square wave polarography, RF polarography, Normal and differential pulse polarography. |
5 |
Corrosion:Corrosion and passivation, prevention of corrosion |
6 |
Fuel Cells:Principles, Applications |
Recommended Books
1 |
J. O. Bockris, A. K. N. Reddy |
Modern Electrochemistry, |
2 |
C. M. A. Brett and A, M, O, Brett |
Electrochemistry: Principles, Methods, and Applications |
3 |
F, Scholz (Ed.) |
Electroanalytical Methods: Guide to Experiments and Applications |
Course No.:Phy.chem:813
Credit Hours:3
Title: Thermochemistry and Thermochemical Energetics
Introduction:
Specification of chemical processes and thermodynamic properties, Thermo-chemical investigations: calorimetric part and chemical part. Temperature dependence of the heat of reaction, Assignment of temperature to chemical process.
Theoretical Background:
Units of energy, Thermo-chemical conversion, Heat of a process, Heats of Formation, Heat of solution and dilution, Heat of ionization, Heat of fusion and of transformation
Thermochemistry of Bonds:
Energy changes in heats of reaction, Definition of bond and bond strengths, chemical bond enthalpy and bond energies. Heat of bond dissociation, dissociation energies, Crystal energies.
Experimental Methods:
Thermogravimetry, Differential thermal analysis and Differential scanning calorimetry, thermochemical, Dynamic, Mechanical and thermoelectric methods, Calorimetry, simultaneous thermal analysis techniques.
Computational Thermochemistry:
Scope and Overview, Empirivcal Estimation Methods, Current Status of Group Addivity, Limitation of Group Additivity, Molecular Mechanics, Quantum Mechanical Methods.
Recommended Books
1 |
P. Haines |
Principles of Thermal analysis and Calaorimetry |
2 |
F. D. Rossini |
Experimental Thermochemistry |
3 |
H.A Skinner |
Thermochemistry and thermodynamics, MTP International Review of Science, Physical ChemistrySeries One, Vol. 10 |
4 |
K. K. Irikura |
Computational Thermochemistry, Prediction and Estimation of Molecular Thermodynamics |
Course No.: Phy.Chem: 814
Credit Hours: 3
Title: HETEROGENEOUS CATALYSIS: II-Applications
1 |
Quantitative Aspects of Catalysis by MetalsThe reactions that metal catalyze, The Volcano Principle. |
2 |
Heterogeneous Catalysts: Structure, Preparation and UsesCatalyst for industrial processes: general requirements, Catalytic reactors and physical form of catalysts, Composition and manufacture of industrial catalysts: general considerations, Supported metal catalysts, Unsupported metals for use in liquid media. |
3 |
Heterogeneous Catalysis in ActionCatalysis in energy conversion and in the production of hydrocarbon feed stock, Reactions on acidic solids and bifunctional catalysts: the petroleum Industry, Oxidation catalysis: The Petrochemical Industry, Catalysis in the inorganic chemical industry, Catalysis in Atmospheric Pollution Control.
|
Recommended Readings:
1 |
M. Bowker |
Basics and Application of Heterogeneous Catalysis |
2 |
B.C. Gates |
Catalytic chemistry |
3 |
G.C.Bond |
Heterogeneous Catalysis: Principals and applications, |
4 |
M. Boudart and G.D. Mariadassou |
Kinetics of Heterogeneous catalytic reactions, |
Course No.: Phys. Chem.815
Credit Hours: 3.0
Title: Ion Exchange
1 |
Introduction: |
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Ion exchange reactions, matrix and functional groups, Capacity, Physical structure, Properties of I.E. resins. |
2 |
Equilibria: |
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Swelling, Distribution of ions between solvents and exchanger, Donnan potential, I.E.Isotherms, Selectivity, Chelating resins, Physico-chemical Models, Ligand, Exchange. |
3 |
Kinetics: |
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Mechansim of I.e. processes, Rate laws of ion exchange and diffusion in porous media. |
4 |
Column Processes: |
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Break through curves. Sorption Fronts, Hydrodynamic effects, Quantitative treatment. |
5 |
Applications: |
|
Purification of gases, Dual temperature separations Hydrometallurgy, Medical applications, catalysis by ion exchangers |
.
Recommended Books
1 |
F. Heltferich |
Ion Exchange |
2 |
W. Rleman |
Ion Exchange in Analytical Chemistry |
3 |
A.E. Rodri |
Ion Exchange, Science & Technology |
4 |
C. E. Harland |
Ion exchange: Theory and Practical |
5 |
D.L. Sparks |
Environmental Soil Chemistry |
Course No. Phy.Chem: 816
Credit Hours: 3.0
Title: Radiation Chemistry
1 |
INTRODUCTION |
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General features of radiation chemistry, comparison of radiation chemistry with photochemistry, development of radiation chemistry. |
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2 |
INTERACTION OF IONIZING RADIATION WITH MATTER |
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Sources of ionizing radiation, natural occuring phenomena, man-made sources, characteristics of x-rays, B-rays and -rays, Interaction of electromagnetic radiation, electrons, neutrons and heavy charged particles with matter. |
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3 |
RADIATION DOSIMETRY |
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Dosimetric terms and units, calorimetry, ionization measurements, dosimetry for charged particles and neutrons, chemical dosimetry, Fricke dosimeter and other chemical dosimeters, plastic dosimetry, film dosimetry, fluorescence dosimetry. |
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4 |
WATER AND AQUEOUS SYSTEMS |
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Radiolysis of liquid water, reactive species produced on radiolysis of water and aqueous solutions, characteristics of hydrated electron, hydrogen atom and hydroxyl radicals, radiation chemistry of some important aqueous systems, ferrous sulphate, ceric sulphate, ferrocynide, halide ions and organic systems. |
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5 |
APPLICATIONS OF RADIATION CHEMISTRY |
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Comparison of radiation chemical processes with conventional processes, industrial chemical synthesis, sterilization of medical products, food irradiation, radiation polymerization, pollution control of water and combustion flue gases. |
RECOMMENDED READINGS
1 |
A.K. Pikave |
Applied Radiation Chemistry |
2 |
S.W.T. Spinks |
An Introduction to Radiation Chemistry |
3 |
A.J. Swallow |
Radiation Chemistry |
4 |
Multi-Authors |
Proceeding of state-of-the-art symposium in radiation chemistry J. Chemical Education, Vol. 58, No. 2 February 1981 |
5 |
M.S. Matheson |
Pulse Radiolysis |
6 |
F. A .J. Rodgers |
Radiation Chemistry, Principles and Applications |
Course No. Phy.Chem: 817
Credit Hours: 3.0
Title: Aquatic Chemistry
1 |
Introduction |
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Goals of the course, water cycle. Influence of man on natural waters. Biogeochemistry and environmental problems. |
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2 |
Review of Kinetics |
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Rate laws, Mechanisms, Factors affecting rates of reactions. Examples from Aquatic chemistry. |
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3 |
Review of Thermodynamics |
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Basic relationships. Free energy and chemical change, Chemical potentials. External factors affecting equilibrium, Non-ideal behavior. |
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4 |
Acids and Bases |
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Basic relationships. PC-pH diagrams, Buffers and buffer capacity, Acidity and alkalinity, Carbonate system. Changes in solution chemistry with the addition of strong acids or bases. |
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5 |
Coordination chemistry |
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Complex stability, Metal ion hydrolysis, Inorganic and organic complexes in natural and polluted water. |
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6 |
Precipitation and Dissolution |
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Solubility product, Common ion effect, Solubility of salts of weak acids and bases, competitive Effects, Carbonate system, Phosphate system. |
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7 |
Oxidation Reduction Reaction |
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Redox equilibria, Pc-PC diagrams, Iron chemistry including corrosion and acid mine drainage, Chlorine chemistry, Biological Redox reactions, Redox Chemistry of water. |
Recommended Books
1 |
W. Stumm |
Aquatic Chemistry2nd Edition |
2 |
V. L. Snoeylnk |
Water Chemistry |
3 |
J. F. Pankow. |
Aquatic chemistry Problems, Lewis Publishers |
Course No: Phy. Chem./818
Credit Hours: 3.0
Title: Modern Chromatographic Techniques
- Fundamental Relationships of Chromatography:
Retention time, Flow in porous media, Band Broadening mechanism, Parameters affecting resolution, Peak shape models, Retention index system.
- Gas chromatograph:
Gas liquid chromatography, Preparation of packed columns, Performance evaluation of packed columns, contribution of interfacial adsorption to retention in gas liquid chromatography, Bonded Liquid phases, Porous polymer beads, Gas solid chromatography, Micropacked columns, Capillary columns, The mobile phases in gas chromatography. Instrumental requirements for gas chromatography.Detectors in gas chromatography and their applications.Qualitative and Quantitative analysis in gas chromatography.
- Liquid Chromatography:
Selection of separation methods, column packing for High Performance liquid chromatography (HPLC), column preparation, Column testing and evaluation, Mobile phase selection in HPLC, Liquid solid chromatography, Polar bonded phases, Reversed phase chromatography, Size exclusion chromatography, Ion exchange chromatography, Ion chromatography, Instrumental requirements for HPLC, High pressure pumps, Detectors for HPLC and their applications, Data acquisition and signal processing, Quantitative analysis, High performance thin layer chromatography.
- Techniques of preparative scale chromatography:
Gas chromatography, Low and medium pressure liquid Chromatography, High pressure liquid chromatography Countercurrent chromatography.
- Hyphenated techniques for identification after chromatographic separation.
Interfacing a gas chromatograph to mass spectrometer and Fourier transform infrared spectrometer, Interfacing liquid chromatograph to a nuclear magnetic resonance spectrometer, Gas chromatography-optical emission spectroscopy.
Recommended Books
1 |
James N. Martin |
Gas chromatographic Techniques and Applications |
2 |
K. Jinno |
Chromatographic Separations Based on Molecular Recognition, |
3 |
Klaus K. Unger, |
Packings and Stationary Phases in Chromatographic Techniques |
4 |
C.F. Poole, |
Chromatography Today, |
5 |
Stavros Kromidas |
Practical Problem Solving in HPLC , |
Course No:Phy-Chem. 819
Credit hours: 3
Title: Tribology
1. Introduction:
Definition, history and importance of tribology; tribology as a multidisciplinary subject; nanotribology and biotribology.
2. Tribological materials:
Ferrous metals and alloys, nonferrous and alloys, ceramics, cermets, plastics,
composites, role of materials mismatch in performance of machine.
3. Engine components:
Types, construction, operation, and maintenance of bearings, gears, and pistons.
4. Wear:
Wear theories; types of wear; wear of metals, ceramics, and polymers; antiwear measures for the machine components during operation.
5. Friction:
Fundamental aspect of friction; types and causes of friction; advantages and disadvantages of friction.
6. Lubricants:
History of lubricants; mineral oil based lubricants; vegetable oil based lubricants; lubricating greases; solid lubricants; lubricants additives; commercial lubricants; types of lubrication [hydrostatic lubrication, boundary lubrication, extreme pressure lubrication]
7. Viscosity:
Role of viscosity in lubricity of lubricating oils, viscosity index, viscosity index improvers, Newton Concentric Cylinder Experiment, flow of lube oils through a slot; flow of lube oil through a capillary; description and working of viscous oil based hydrostatic step bearings.
8. Tribometers:
Working principles, construction, and operation of various tribometers, such as Four-ball wear tester, ball-on-cylinder wear tester, pen-on-disc wear tester.
9. Current trend in tribology research:
Development of new antiwear additives for lubricating oils and greases; production of environmental friendly lubricants for the industries and automobile; importance of nanoscience and nanotechnology research in tribology; world-wide role of society of automotive engineers [SAE], and American Standard of testing materials lubrication chemists and engineers, nanoparticles as solid antiwear additives, development of light weight composites for making high performance machine components.
Recommended books
1 |
E. Rabinowiez |
Friction and Wear of Materials,John Wiley, 1995. |
2 |
T.Mang,W. Dresel |
Lubricants and Lubrication, Wiley-VCH, 2001 |
3 |
B. Bhushan |
Modern Tribology Handbook, CRC Press, 2000 |
4 |
F. P. Bowden, D. Tabor |
The Friction and Lubrication of Solids,Oxford, 1996. |
5 |
B. Bhushan |
Introduction to Tribology, J. Wiley, 2002 |
6 |
E. R. Booser |
Tribology Data Handbook: An Excellent Friction, Lubrication and Wear Resource, CRC Press |
Course No: Phy.Chem. 820
Credit Hours: 3.0
Title: Photochemistry
- PHOTOCHEMICAL PROCESSES
Definition, Interaction of light with chemical systems, Characteristics of photochemical reactions. Energy states of molecules. Types of excitation, Electronic states, Absorption, Emissions, Phosphorescence, Triplet state.Delayed fluorescence, Energy –level diagram, The Frank-Condon principle.
- ORGANIC AND INORGANIC PHOTOCHEMICAL REACTIONS
Uni and bimolecular reactions, photo oxidation, Reduction and conduction, chemiluminescence, Reduction of salts.
- LAB. TECHNIQUES
Irradiation, Actinometery, Spectrometry, Flash photolysis
- LASERS
Principle of Lasers, Working, Types of Lasers
RECOMMENDED BOOKS
1 |
C.E. Wayne, R. P. Wayne |
Photochemistry, Oxford, 1997 |
2 |
N.J. Turo |
Molecular Photochemistry, University Science Books, 1991 |
3 |
A. Cox, T.J. Kemp |
Introductory Photochemistry, McGraw- Hill, 1970 |
Course No: Phy. Chem. 821
Credit Hours: 3.0
Title: Gas Phase Unimolecular Reactions
- Introduction and Early Theories
General introduction, Experimental study of unimolecular reaction, Potential energy surfaces, Activated complexes and Absolute rate theory.
- Basic Theories of Unimolecular Reactions
The Lindemann theory, comparison of Lindemann theory with experiment, Hishelwood modification, comparison of Hishelwood-Lindemann theories.The slater theories and its applications. The Rice –Ramsperger-Kassel (RRK) theory, RRKM ( Marcus-Rice) theory. Collision energy transfer in unimolecular reaction system.
- Application of RRKM Theory
Calculation of activation parameters for the postulated model of unimolecular gas phase reactions, specification of model for the reaction, Use of NIST kinetics database for gas phase unimolecular reactions. Introduction of NIST Chem rate soft ware for RRKM calculations, Application of RRKM to some important classes of compounds related to combustion and environment.
- Experimental Techniques for unimolecular Reactions
Thermal Activation Techniques( static and single pulse shock tube methods), Chemical Activation, Photo-activation, electric Discharge Methods.
Recommended Books
1 |
KA Holbrook, MJ Pilling, SH Robertson |
Unimolecular Reactions, 2nd edition |
2 |
T. Baer |
Unimolecular Reaction Dynamics: theory and Experiments |
3 |
P. J. Robinson, K. A. Holbrook |
Unimolecular Reactions |
Course No. Phy. Chem. 822
Credit Hours: 3.0
Title: Mass Spectrometry
- Introduction
Atoms, molecules, isotopes, early concepts and experiments, the mass scale and isotopic ratio measurements.
- Instrumentation
Ion source, electron impact chemical ionization, field ionization and field des..photoionization and Resonance, Industively coupled plasma, Laser microscope, Ion bombardment, Californium-252 plasma desorption. Type of spectrophotometers, single magnetic analyzer, the 60,90 and 180 sectors. Electrostatic analyzers.Double focusing spectrometers.Time of flight tandem systems.GC/MS, Jet separators.
- The principles and Methods of Mass Spectrometry
- Positive ion production, resolving power, sample introduction, Mass spectra of organic compounds, Qualitative analysis, The measurement of ionization potentials and bond strengths.
- Typ3es of ions in mass spectra of organic compounds. Parent or molecular ions, fragment ions, meta stable ions, rearrangement ions, multiple charge ions, ions formed in ion molecule reactions.
- Examples of mass spectra of hydrocarbons, oxygen, nitrogen, sulfur, phosphorus, and halogen containing compounds.
- Application of Mass Spectrometry to various Disciplines
Geochemistry, planetary measurements, metals, glasses, ceramics, composites, electronic materials and devices, Air and water monitoring, agriculture and food science, biomedical applications, pharmacology, toxicology and forensic science.
Recommended Books
1 |
Edmond De Hoffmann |
Mass Spectrometry: Principles and Applications, 2nd Edition |
|
J.R. Chapman |
Practical Organic Mass Spectrometry |
|
R. M. Smith |
Understanding Mass Spectra: A Basic Approach, |
|
S. Facchetti |
Mass spectrometry of large molecules, |
Phy.chem. 823
Credit Hours: 3.0
Title: Modern Gas Kinetics Techniques
1 |
Thermal Excitation Techniques |
|
|
|
Introduction, Discharge Flow System, Flash Photolysis, Shock Tubes, Static Thermal and Photochemical Experiments, Bimolecular Reactions, Non-Arrhenius behaviour, Kinetics Isotopes Effects, Unimolecular Reaction, Atomic Recombination. |
|
|
2 |
None Thermal Excitation Techniques (Excitation of Products) |
|
|
|
Steady State Chemiluminescence, Kinetic Spectroscopy, Chemical Lasers, Continous Photochemical Activation, Pulse Photochemical Activation, Chemical activation, Selective Excitation in Unimolecular and bimolecular processes. |
3 |
Analysis of Experimental Data |
|
|
|
Introduction, Normally distributed errors, Linear Regression, Propagation and Combination of Errors, Weighing of Data, None-Linear Least Squares Fits, Matrix Techniques, Goodness of Fit. |
Recommended Books
1 |
G.G. Chernyi |
Physical and Chemical Processes in Gas Dynamics: Physical and Chemical Kinetics and Thermodynamics of Gases and Plasmas, Vol. II |
2 |
J. E. Nicholas |
Chemical Kinetics: A Modern Survey of Gas Reactions |
3 |
M.J. Pilling |
Modern Gas Kinetics, Theory, Experiment and Application |
4 |
I. W. Smith |
Kinetics and Dynamics of Elementary Gas phase Reactions |
Credit Hours: 3.0
Title: Physical Organic Chemistry
Part-1
BASIC CONCEPTS FOR UNDERSTANDING MECHANISM
OF REACTIONS
Chemical Reaction and Energy changes, Kinetic studies.The reaction medium.Acids and bases.Structure reactivity relationship.Linear Gibes Free Energy relations.Quantum chemistry and the molecular orbital methods, spectroscopy.
Part-II
SPECIFIC CHEMICAL REACTIONS
Aliphatic nueleophilic substitution, elimination reactions.Addition reactions, Aromatic substitution to the carbonyl group and related reactions, Esters and related compounds, Molecular rearrangement. Free radical and photochemical reactions, Pericyclic reactions.
RECOMMENDED READINGS
1 |
N.S. Issacs |
Physical Organic Chemistry |
2 |
H. Maskil |
The physical basis of organic chemistry |
3 |
A. Pross |
Theoretical and Physical Principles of Organic Reactivity |
4 |
A. Liberates |
Theoretical Organic Chemistry |
- Details
- Written by: Administrator
- Category: Uncategorised
- Hits: 739
S.No |
Course No.: Phys. Chem. |
Title |
Credit hours |
P.No |
|
1 |
601 |
Adv. Mathematics for chemist |
3.0 |
2 |
|
2 |
602 |
Statistical Treatment of Experimental Data |
3.0 |
3 |
|
3 |
701/901 |
Advanced Chemical Kinetics |
3.0 |
4 |
|
4 |
702/902 |
QUANTUM CHEMISTRY |
3.0 |
5 |
|
5 |
703/903 |
Chemical and Statistical Thermodynamics |
3.0 |
6 |
|
6 |
704/904 |
Thermochemistry and Thermochemical Energetics |
3.0 |
7 |
|
7 |
705/905 |
HETEROGENEOUS CATALYSIS |
3.0 |
8 |
|
8 |
706/906 |
Mass Spectrometry |
3.0 |
9 |
|
9 |
707/907 |
Ion Exchange |
3.0 |
10 |
|
10 |
708/908 |
Modern Chromatographic Techniques |
3.0 |
11 |
|
11 |
709/909 |
Polymer Chemistry |
3.0 |
12 |
|
12 |
710/910 |
Advance Radiation Chemistry |
3.0 |
13 |
|
13 |
711/911 |
Tribology |
3.0 |
14 |
|
14 |
712/912 |
Photochemistry |
3.0 |
15 |
|
15 |
713/913 |
Gas Phase Unimolecular Reactions |
3.0 |
16 |
|
16 |
714/914 |
Physical Organic Chemistry |
3.0 |
17 |
|
17 |
715/915 |
MOLECULAR SPECTROSCOPY |
3.0 |
18 |
|
18 |
716/916 |
Modern Gas Kinetics Techniques |
3.0 |
19 |
|
19 |
717/917 |
Aquatic Chemistry |
3.0 |
20 |
|
20 |
718/918 |
Research Methodology and Literature Survey |
3.0 |
21 |
|
21 |
720/920 |
Advanced Instrumental Tchniques |
22 |
||
22 |
723/923 |
Surface Chemistry |
3.0 |
23 |
|
23 |
724/924 |
Adv-Electrochemistry |
3.0 |
||
24 |
726/926 |
Special topics in Physical Chmistry |
1.0-3.0 |
||
25 |
727/927 |
Seminar/Term Paper |
1.0 |
||
26 |
****** |
Environmental Chemistry |
3.0 |
24 |
* Phys. Chem 724/924, Adv. Electrochemistry, revised course not available yet.