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Lovely Professional University,Punjab
Course No Cours Title Course Planner Lectures Tutorial Practical Credits
CHE101 CHEMISTRY 14863 :: Ashish Kumar Pandey 3 1 0 4
Course Category Courses with numerical focus
Sr. No. (Web adress) (only if relevant to the courses) Salient Features
11 http://www.klte.hu/~lenteg/animate.html Chemistry animation and videos
12 http://dwb4.unl.edu/chemAnime/atomic_orbits.htm Atomic orbital animations
13 http://www.mhhe.com/physsci/chemistry/essentialchemistry/flash/hybrv18.swf
Hybridization animation
Sr No Jouranls atricles as compulsary readings (specific articles, Complete reference)
4 http://onlinelibrary.wiley.com/journal/10.1002/(ISSN)1097-4601
5 http://www.springer.com/chemistry/electrochemistry/journal/10800
6 http://www.sciencedirect.com/science/journal/13882481
7 http://www.springerlink.com/content/100224/
8 http://www.sciencedirect.com/science/journal/00108545
9 http://pubs.acs.org/journal/joceah
10 http://www.sciencedirect.com/science/journal/00323861
Zumdahl,S., Chemistry: Concepts and applications, Cengage Learning,Indian Edition-20111Text Book:
Other Specific Book:Suba Ramesh, S.Vairam, Pradnya Tej Godbole ,Engineerig Chemistry, John Wiley, Ist edition ,20112
R.T. Morrison and R.N. Boyd, S.K.Bhattacharjee, Organic Chemistry, 7th Edition, Pearson3
Relevant Websites
Other Reading
Format For Instruction Plan [for Courses with Lectures and Tutorials
1 Approved for Spring Session 2011-12
14 http://www.mhhe.com/physsci/chemistry/animations/chang_7e_esp/bom3s2_7.swf
VSEPR animation
15 http://jchemed.chem.wisc.edu/JCEDLib/WebWare/collection/open/JCEWWOR019/momovies.html
Molecular orbital theory animations
16 http://dwb4.unl.edu/chemAnime/Electro.htm Electrochemistry animations
17 http://www.mhhe.com/physsci/chemistry/essentialchemistry/flash/galvan5.swf
Galvanic Cell animation
18 http://auth.mhhe.com/physsci/chemistry/animations/chang_7e_esp/crm3s5_5.swf
Acid-Base titration animation
19 http://wwwchem.uwimona.edu.jm:1104/courses/CFT.html Crystal field theory
20 http://intro.chem.okstate.edu/1314f00/lecture/chapter10/vsepr.html
Different geometries VSEPR
21 http://www.mhhe.com/physsci/chemistry/essentialchemistry/flash/activa2.swf
Activation energy animation
22 http://dwb4.unl.edu/chemAnime/acid_base.htm Acid base animations
23 http://www.chem.iastate.edu/group/Greenbowe/sections/projectfolder/flashfiles/electroChem/electrolysis10.html
Electrolysis
24 http://www2.chemistry.msu.edu/faculty/reusch/VirtTxtJml/alhalrx3.htm#hal8
E1 and E2 reactions
25 http://www.starscience.net/chemistryBG/ADDHX.MOV Additon reaction
26 http://academic.sun.ac.za/unesco/PolymerED2000/Conf2000/VanReenenC/zn.html
Zeigler Natta polymerization
Detailed Plan For Lectures
Week Number Lecture Number Lecture Topic Chapters/Sections of Textbook/other reference
Pedagogical tool Demonstration/case study/images/anmation ctc. planned
Part 1Week 1 Lecture 1 Introduction to syllabus: Quantum numbers ->Reference :1,Ch
11/540-541/Section 11.9
Lecture 2 atomic orbitals, electronic configuration, the buildingup principle
->Reference :1,Ch 11/541-555/Section 11.9-11.13 ->Reference :12
atomic orbital animation
2 Approved for Spring Session 2011-12
Week 1 Lecture 3 hybridization ->Reference :1,Ch 13/644-656/Section 13.1 ->Reference :13
hybridization animation
Week 2 Lecture 4 VSEPR Theory ->Reference :1,Ch 12/621-632/Section 12.13->Reference :14
VSEPR animations
Lecture 5 Molecular orbital theory (Homonuclear diatomic molecules and ions)
->Reference :1,Ch 13/657-667/Section 13.2-13.3->Reference :15
molecular orbitals animations
Lecture 6 Reaction rates, rate law and order determination ->Reference :1,Ch 14/697-706/Section 14.1-14.3
Demonstration 1 and 2Home work allotment
Week 3 Lecture 7 first order reaction, second order reaction and zero order reaction
->Reference :1,Ch 14/707-717/Section 14.4-14.5
Lecture 8 activation energy and temperature dependence of rate constant, Arrhenius Equation
->Reference :1,Ch 14/727-731/ Section 14.8->Reference :21
Activation energyanimation
Lecture 9 rate laws and elementary steps ->Reference :1,Ch 14/718-726/Section 14.6-14.7
Week 4 Lecture 10 catalysis and its types ->Reference :1,Ch 14/732-741/Section 14.9
Part 2Week 4 Lecture 11 Review on redox reactions, galvanic Cells, ->Reference :1,--
>Reference 1Ch 10/464-467/Section 10.1->Reference :17
Galvanic Cell animationDemonstration 3
Lecture 12 standard reduction potentials, electrochemical series ->Reference :1,Ch10/467-473/Section 10.2
Week 5 Lecture 13 The Nernst Equation ->Reference :1,Ch 10/474-479/Section 10.3-10.4
3 Approved for Spring Session 2011-12
Week 5 Lecture 14 calculation of equilibrium constant for redox reactions
->Reference :1,Ch 10/480-481/Section 10.4Ch 10/474-479/Section 10.3-10.4
Lecture 15 concentration cells ->Reference :1,Ch 10/481-484/Section 10.4
Week 6 Lecture 16 electrolysis ( H2O, NaCl) ->Reference :1,Ch 10/491-494 498- 500/Section 10.7->Reference :23
Electrolysis animation
Lecture 17 Acids and Bases: Nature, acid strength ->Reference :1,Ch 6/230-236/Section 6.1- 6.2 ->Reference :22
Acid base animations
Lecture 18 pH and its scale, calculation of pH of strong and weak acids, percentage dissociation
->Reference :1,Ch 6/236-244/Section 6.3- 6.5
Home work submission
Week 7 Lecture 19 bases ->Reference :1,Ch 6/645-650/Section 6.6
Lecture 20 acid base properties of salts ->Reference :1,Ch 6/259-266/Section 6.8
Lecture 21 Properties of transition metals, electronic configuration , oxidation states and Ionization energy
->Reference :1,Ch 18/910-915/Section 18.1
MID-TERMPart 3
Week 8 Lecture 22 Coordination number, ligands, nomenclature ->Reference :1,Ch 18/920-924/Section 18.3
Lecture 23 isomerism in coordination compounds ->Reference :1,Ch 18/924-929/Section 18.4
Lecture 24 bonding in coordination compounds: crystal field theory, CFT in octahedral
->Reference :1,Ch 18/930-935/Section 18.5-18.6 ->Reference :2,Ch 3/116-118/Section 3.8
4 Approved for Spring Session 2011-12
Week 9 Lecture 25 CFT in tetrahedral and square planer complexes, Crystal field stabilization energy
->Reference :1,Ch 18/935-938/Section 18.6 ->Reference :2,Ch 3/118-119/Section 3.8
Lecture 26 Inductive effect, electromeric effect ->Reference :1,Ch 20/1054-1055/Section 20.2 ->Reference :2,Ch 9/342-345/Section 9.2
Lecture 27 resonance effect and hyper conjugation effect ->Reference :2,Ch 9/345-349/Section 9.2
Week 10 Lecture 28 reactive intermediates: Free radicals, carbocation, carbanions and their stability
->Reference :1,Ch 20/1052-1055/Section 20.2/ 1057-1060 Section 20.3 ->Reference :2,Ch 9/349-355/Section 9.3
Lecture 29 Structural isomerism in alkanes and cylcloalkanes ->Reference :1,Ch 19/956-958/Section 19.1 Ch 20/1129-1133 Section 20.7
Part 4Week 10 Lecture 30 geometrical isomerism in alkenes, syn and anti. ->Reference :1,Ch
20/1111-1119/Section 20.7
Week 11 Lecture 31 Substitution reactions: SN1 ->Reference :1,Ch 20/1076-1107/Section 20.5 ->Reference :2,Ch 9/365-367/Section 9.7
Lecture 32 SN2 and Walden inversion
Lecture 33 addition reactions( Markownikoff's and Peroxide effect)
->Reference :25->Reference :1,Ch 20/1068-1076/Section 20.3-20.4
5 Approved for Spring Session 2011-12
Week 12 Lecture 34 Elimination reactions (E1 and E2 reactions) ->Reference :1,Ch 19/975-978/Section 19.5 ->Reference :2,Ch 13/523-532/Section 13.1-13.4->Reference :24
Lecture 35 Properties, types of polymers, addition polymers ->Reference :1,Ch 19/979-980/Section 19.5 ->Reference :2,Ch 13/528-529/Section 13.3
Lecture 36 condensation polymers ->Reference :1,Ch 19/979-980/Section 19.5->Reference :2,Ch 13/528-529/Section 13.3
Week 13 Lecture 37 tacticity, natural polymers (basics only ), ->Reference :1,Ch 19/980-985/Section 19.5-19.6->Reference :2,Ch 13/588-590/Section 13.19
Lecture 38 Zeigler-Natta polymerization ->Reference :26
Lecture 39 Zeigler-Natta polymerization ->Reference :26
Spill OverWeek 14 Lecture 40 Spill over
Lecture 41 Spill over
Lecture 42 Spill over
Week 15 Lecture 43 Spill over
Details of homework and case studies
6 Approved for Spring Session 2011-12
Homework No. Objective Topic of the Homework Nature of homework(group/individuals/field
work
Evaluation Mode Allottment / submission
Week
Test 1 to assess the students for subject' understanding
Quantum numbers and electronic configuration, Hybridization, VSEPR and Molecular orbital theroy, Reaction rates, rate law anddifferent order reactions (first, second and zero order), Activation energy, Arrhenius equation, Catalysis, Review on redox reactions, galvanic Cell, standard reduction potentials, electrochemical series, The Nernst Equation, calculation of equilibrium constant forredox reactions and concentration cells, Electrolysis, Acids and Bases: Nature, acid strength, pH and its scale, calculation of pHof strong and weak acids, percentage dissociation
Individual performance based
6 / 6
Homework 1 comprehensive and analytical problems
Quantum numbers and electronic configuration, Hybridization,VSEPR and Molecular orbital theroy, Reaction rates, rate law anddifferent order reactions (first, second and zero order), Activationenergy, Arrhenius equation, reaction mechanism Catalysis, Review on redox reactions, galvanic Cell, standardreduction potentials, electrochemical series, The Nernst Equation,Ion selective electrodes, calculation of equilibrium constant forredox reactions and concentration cells, Electrolysis, Acids andBases: Nature, acid strength, pH and its scale, calculation of pHof strong and weak acids, percentage dissociation
Individual based on performances individually
2 / 6
Test 2 to assess the students for subject' understanding
Base, acid base properties of salts, Properties of transitionmetals, electronic configuration , oxidation states and Ionizationenergy, Coordination compounds (nomenclature and isomerism),bonding in coordination compounds: crystal field theory, CFT inoctahedral, CFT in tetrahedral and square planer complexes,Crystal field stabilization energy, Electron displacement effects,Reactive intermediates, isomerism in alkane, cycloalkane andalkenes.
Individual performance based
11 / 11
Scheme for CA:out of 100*Component Frequency Out Of Each Marks Total Marks
Homework,Test 2 3 10 20
Total :- 10 20
* In ENG courses wherever the total exceeds 100, consider x best out of y components of CA, as explained in teacher's guide available on the UMS
7 Approved for Spring Session 2011-12
Plan for Tutorial: (Please do not use these time slots for syllabus coverage)Tutorial No. Lecture Topic Type of pedagogical tool(s) planned
(case analysis,problem solving test,role play,business game etc)
Tutorial 1 Quantum numbers and electronic configuration Problem solving
Tutorial 2 Hybridization, VSEPR and Molecular orbital theroy Problem solving
Tutorial 3 Reaction rates, rate law and different order reactions (first, second and zero order), Activation energy, Arrhenius equation, reaction mechanism
Problem solving
Tutorial 4 Catalysis, Review on redox reactions, galvanic Cell, standard reduction potentials, electrochemical series
Problem solving
Tutorial 5 The Nernst Equation, Ion selective electrodes, calculation of equilibrium constant for redox reactions and concentration cellsElectrolysis, Acids and Bases: Nature, acid strength, pH and its scale, calculation of pH of strong and weak acids, percentage dissociation
Problem solving
Tutorial 6 Test- 1 Test
Tutorial 7 Base, acid base properties of salts, Properties of transition metals, electronic configuration , oxidation states and Ionization energy
Problem solving
After Mid-TermTutorial 8 Coordination compounds (nomenclature and
isomerism), bonding in coordination compounds: crystal field theory, CFT in octahedral
Problem solving
Tutorial 9 CFT in tetrahedral and square planer complexes, Crystal field stabilization energy, Electron displacement effects.
Problem solving
8 Approved for Spring Session 2011-12
Tutorial 10 Reactive intermediates, isomerism in alkane, cycloalkane and alkenes.Organic reactions (substitution, addition and elimination)
Problem solving
Tutorial 11 Test-2 Test
Tutorial 12 Polymers Problem solving
Tutorial 13 spill over Problem solving
9 Approved for Spring Session 2011-12
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