Download Bsc i weekly planner 2016

B.Sc I Year weekly planner
S.No
Week
Paper A inorganic
chemistry
Paper B organic
chemistry
Paper c physical
chemistry
Idea of de-Broglie matter
waves. Heisenberg
uncertainty principle,
atomic orbitals
Schrodinger wave
equation, significance of Ψ
and Ψ2,
Quantum numbers
Introduction of structure and
bonding of organic compounds
Logarithmic relations,
curve sketching, linear
graphs and calculation of
slopes
Differentiation and
integration of functions
like ex, xn , sinx , logx ,
maxima and minima.
Vander waal’s interaction,
resonance.Hyperconjugation,
aromaticity, Inductive and field
effects, Hydrogen bonding,
curved arrow notation , drawing
e- movement with arrows,
Homolytic and heterolytic bond
breaking
Hydrogen bonding, curved
arrow notation , drawing emovement with arrows,
Homolytic and heterolytic bond
breaking
1
18 july-23july
2
25july-30july
3
1aug-6aug
Radical and angular wave
functions and probability
distribution curves.
Shapes of s, p, d, orbitals.
4
8aug-13aug
Aufbau and Pauli’s
exclusion principles.
Hund’s multiplicity rule,
electronic configurations
of the elements and ions.
5
15aug-20aug
Atomic radius,
Ionization energy,
electron affinity,
methods of determining
or evaluation, trends in
periodic table
Types of reagents ,
Types of reactions, energy
consideration. Carbocations,
Carbanions, Free radical,
Carbenes, Arynes and Nitrenes.
6
22aug-27aug
Preparation and
properties of noble
gases. chemistry of
xenon compounds.
Assigning formal charges to
intermediates and other ionic
species, ,methods of
determination of rxn
mechanisms.
PV isotherm of real gases ,
continuity of states, the
isotherms of vanderwaals
equation
7
29aug-3sept
Structure and
bonding in Xenon
compounds
Comparative study
Uv absorption spectroscopyabsorption laws,molar
absorptivity,presentation and
analysis of uv spectra.
Relationship between
critical constant and
vanderwaals constants,
the law of corresponding
states, reduced equation
of state.
8
5sept-10sept
Diagonal
relationships, salient
features of hydrides
Types of electronic transitions,
effect of conjugation. Concept
of chromophore and
auxochrome.
Molecular velocities:
maxwells distribution
of molecular
velocities, collision
Hybridization ,Bond lengths
,Bond angles, Bond energy ,
Localized and delocalized
chemical bond,
Partial differentiation and
reciprocity relations.
Terms of mean and
median, precision and
accuracy in chemical
analysis.
Data treatment for series
involving relatively few
measurement, linear
squares curve fitting .
Types of errors, standard
deviation.
Postulates of kinetic
theory of gases, deviation
from ideal behavior.
Vanderwaals equation of
state.
number , diameter,
9
12sept17sept
Solvation and
complexation
tendencies including
their function in
biosystems
Bathochromic,hypsochromic,
hyperchromic,hypochromic
shifts. Uv spectra of conjugated
enes and enones.
mean free path ,
liquefaction of gases.
10
19sept24sept
an introduction to
alkyls and aryls.
Woodward fieser rules and
their applications in calculating
maximum value of conjugated
alkenes and conjugated
carbonyl compounds.
Chemical Kinetics:
Introduction, factors
affecting rate of
reaction, molecularity
and order of reaction,
11
26sept29sept
Revision and test
Revision and test
12
18oct-22oct
percentage ionic
character from dipole
moment and
electronegativity
difference
Stereochemistry: concept of
isomerism, optical isomerism:
element of symmetry,
molecular chirality,
enantiomers, stereogenic
centre, optical activity,
properties of enantiomers.
13
24oct-29oct
Relative and absolute
configuration sequence
rule.
14
31oct-5nov
Chemical Bonding:covalent bond –valence
and its limitations,
directional
characterstics of
covalent bond.
Various types of
hybridization and
simple inorganic
molecules and ions
Mathematical
characteristics of
simple chemical
reactions:zero
order,first order
Mathematical
characteristics of
simple chemical
reactions: second
order and pseudo
order,
Methods of
determination of
order of reaction,
radioactive decay
15
7nov-12nov
VSEPR theory (Valance
shell electron pair
repulsion theory) .MO
theory introduction
D &L and R &S system of
nomenclature.Geometrical
isomerism ,E & Z system
of nomenclature,
geometrical isomerism in
oximes and acyclic
compounds.
Conformational isomerism
of ethane, n-butane,
cyclohexane.
Theories of chemical
kinetics: Arrhenius
equation and concept
of activation energy
Simple collision
theory, transition
state theory
Catalysis:Homogenous
and heterogenous
catalysis,
16
14nov-19nov
Homonuclear and
heteronuclear, diatomic
Multicenter bonding in
electron deficient
molecules(boranes),
17
21nov-26nov
Revision and test
Newman Projection
,sawhorse, fischer and
flying wedge formulae.
Difference between
configuration and
conformation.
Acid base catalysis,
Michaelis menton
equation for enzyme
catalysis and its
mechanism
Revision and test
Revision and test