SEM - 5 SYLLABUS
MATHS
CHEMISTRY
COMPUTER
PHYSICS
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MATHS :
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Ring Theory & Vector Calculus
B.A./B.Sc. THIRD YEAR
MATHEMATICS SYLLABUS
SEMESTER – V,
PAPER -5
RING THEORY & VECTOR CALCULUS
60 Hrs
UNIT
– 1 (12 hrs) RINGS-I : -
Definition of Ring and basic properties,
Boolean Rings, divisors of zero and cancellation laws Rings, Integral Domains,
Division Ring and Fields, The characteristic of a ring - The characteristic of
an Integral Domain, The characteristic
of a Field. Sub Rings, Ideals
UNIT
– 2 (12 hrs) RINGS-II : -
Definition of Homomorphism – Homorphic
Image – Elementary Properties of Homomorphism –Kernel of a Homomorphism –
Fundamental theorem of Homomorhphism –
Maximal
Ideals – Prime Ideals.
UNIT
–3 (12 hrs) VECTOR DIFFERENTIATION : -
Vector Differentiation, Ordinary
derivatives of vectors, Differentiability, Gradient, Divergence, Curl
operators, Formulae Involving these operators.
UNIT
– 4 (12 hrs) VECTOR INTEGRATION : -
Line Integral, Surface Integral, Volume
integral with examples.
UNIT
– 5 (12 hrs) VECTOR INTEGRATION APPLICATIONS
: -
Theorems of Gauss and Stokes, Green’s
theorem in plane and applications of these theorems.
Reference Books :-
1.
Abstract Algebra by J. Fralieh, Published by Narosa Publishing house.
2.
Vector Calculus by Santhi Narayana, Published by S. Chand & Company Pvt.
Ltd., New Delhi.
3. A text Book of B.Sc., Mathematics by B.V.S.S.Sarma and others,
published by S. Chand &
Company Pvt. Ltd., New Delhi.
4. Vector Calculus by R.
Gupta, Published by Laxmi Publications.
5. Vector Calculus by
P.C. Matthews, Published by Springer Verlag publicattions.
6.
Rings and Linear Algebra by Pundir & Pundir, Published by Pragathi
Prakashan.
Suggested Activities:
Seminar/ Quiz/ Assignments/ Project on Ring theory and its applications
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PHYSICS :
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Fifth
Semester
Paper V: Electricity, Magnetism&
Electronics
Paper V: Electricity, Magnetism& Electronics
(For
Maths Combinations)
V Semester
Work
load: 60 hrs per semester 4
hrs/week
UNIT-I
(12 hrs)
1.
Electric
field intensity and potential:
Gauss’s law statement and its proof-
Electric field intensity due to (1) Uniformly charged sphere and (2) an
infinite conducting sheet of charge.
Electrical potential – equipotential surfaces- potential due to i) a
point charge, ii)charged spherical shell and uniformly charged sphere.
2. Dielectrics:
Electric
dipolemoment and molecular polarizability- Electric displacement D, electric
polarization P – relation between D, E and P- Dielectric constant and
susceptibility. Boundary conditions at the dielectric surface.
UNIT-II (12 hrs)
3. Electric and magnetic fields
Biot-Savart’s
law, explanation and calculation of B due to long straight wire, a circular
current loop and solenoid – Lorentz force – Hall effect – determination of Hall
coefficient and applications.
4. Electromagnetic induction
Faraday’s law-Lenz’s
law- Self and mutual inductance, coefficient of coupling, calculation of self
inductance of a long solenoid, energy stored in magnetic field.Transformer -
energy losses - efficiency.
UNIT-III (12 hrs)
5. Alternating currents and electromagnetic waves
Alternating
current - Relation between current and voltage in LR and CR circuits,vector
diagrams, LCR series and parallel resonant circuit, Q –factor, power in ac
circuits.
6. Maxwell’s equations
Idea of
displacement current - Maxwell’s equations (integral and differential forms)
(no derivation), Maxwell’s wave equation (with derivation), Transverse nature
of electromagnetic waves.Poynting theorem (statement and proof), production of
electromagnetic waves (Hertz experiment).
UNIT-IV (12 hrs)
7. Basic
electronics:
PN juction
diode, Zener diode, Tunnel diode, I-V characteristics, PNP and NPN transistors,
CB, CE and CC configurations – Relation betweena, b and g - transistor
(CE) characteristics -Determination of hybrid parameters, Transistor as an
amplifier.
UNIT-V: (12 hrs)
8. Digital electronics
Number systems -
Conversion of binary to decimal system and vice versa.Binary addition and
subtraction (1’s and 2’s complement methods).Laws of Boolean algebra - De
Morgan’s laws-statement and proof, Basic logic gates, NAND and NOR as universal
gates, exclusive-OR gate, Half adder and Full adder, Parallel adder circuits.
REFERENCE BOOKS
1.
BSc
Physics, Vol.3, Telugu Akademy,
Hyderabad.
2.
Electricity
and Magnetism, D.N. Vasudeva. S. Chand & Co.
3.
Electricity,
Magnetism with Electronics, K.K.Tewari, R.Chand& Co.,
4.
Principles of Electronics, V.K. Mehta, S.Chand&
Co.,
5.
Digital Principles and Applications, A.P. Malvino
and D.P.Leach, Mc
GrawHill Edition.
Practical
Paper V:Electricity, Magnetism & Electronics
Work
load: 30 hrs 2
hrs/week
Minimum of 6
experiments to be done and recorded
1. Figure of merit
of a moving coil galvonometer.
2.
LCR
circuit series/parallel resonance, Q factor.
3.
Determination
of ac-frequency –sonometer.
4.
Verification
of Kirchoff’s laws and maximum power transfer theorem.
5. Field along the
axis of a circular coil carrying current.
6. PN Junction
Diode Characteristics
7. Zener Diode Characteristics
8. Transistor CE Characteristics-
Determination of hybrid parameters
9. Logic Gates-
OR,AND,NOT and NAND gates. Verification of Truth Tables.
10. Verification of
De Morgan’s Theorems.
Suggested student
activities
Student seminars, group discussions, assignments, field trips, study
project and experimentation using virtual lab
Examples
Seminars - A topic
from any of the Units is given to the student and asked to give a
brief seminar presentation.
Group discussion - A topic from one of the units is given to a
group of students and asked to
discuss and debate on
it.
Assignment - Few
problems may be given to the students from the different units and
asked them to solve.
Field trip -
Visit to Satish Dhawan Space Centre, Sriharikota / Thermal and
hydroelectric power stations / Science Centres, any other such visit etc.
Study project - Web
based study of different satellites and applications.
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COMPUTER :
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III
YEAR V SEMESTER
Paper-V: Data Base Management System
Course Objective:
Design & develop database for large volumes & varieties of data with optimized data processing techniques.
Course Outcomes
On completing the subject, students will be able to:
1. Design and model of data in database.
2. Store, Retrieve data in database.
UNIT
I
Overview of Database Management System: Introduction, file-based system, Drawbacks of file-Based System ,Data
and information, Database, Database management System, Objectives of DBMS,
Evaluation of Database management System, Classification of Database Management
System, DBMS Approach, advantages of DBMS, Anis/spark Data Model, data models,
Components and Interfaces of Database Management System. Database Architecture,
Situations where DBMS is not Necessary, DBMS Vendors and Their Products.
UNIT
II
Entity-Relationship Model:
Introduction, the building blocks of an entity relationship diagram,
classification of entity sets, attribute classification, relationship degree,
relationship classification, reducing ER diagram to tables, enhanced
entity-relationship model (EER model), generalization and specialization, IS A relationship and attribute
inheritance, multiple inheritance, constraints on specialization and
generalization, aggregation and composition, entity clusters, connection types,
advantages of ER modeling.
UNIT
III
Relational Model: Introduction, CODD
Rules, relational data model, concept of key, relational integrity, relational
algebra, relational algebra operations, advantages of relational algebra,
limitations of relational algebra, relational calculus, tuple relational
calculus,domain relational Calculus (DRC). QBE
UNIT
IV
Structured Query Language: Introduction,
History of SQL Standard, Commands in SQL, Data Types in SQL, Data Definition
Language, Selection Operation, Projection Operation, Aggregate functions, Data
Manipulation Language, Table Modification Commands, Table Truncation,
Imposition of Constraints, Join Operation, Set Operation,
View, Sub Query, Embedded SQL,
UNIT
V
PL/SQL: Introduction, Shortcoming in
SQL, Structure of PL/SQL, PL/SQL Language Elements, Data Types, Operators
Precedence, Control Structure, Steps to Create a
PL/SQL, Program, Iterative Control, Cursors, Steps to create a
Cursors, Procedure,
Function, Packages, Exceptions Handling, Database Triggers, Types
of Triggers.
Reference Books
1.
“Database System Concepts” by Abraham Silberschatz, Henry Korth, and S.
Sudarshan, McGrawhill, 2010, 9780073523323
2.
“Database Management Systems” by Raghu Ramakrishnan, McGrawhill, 2002,
3.
Fundamentals of Relational Database Management Systems by S. Sumathi, S.
Esakkirajan, Springer Publications
4.
“An Introduction to Database Systems” by Bipin C Desai
5.
“Principles of Database Systems” by J. D. Ullman
6.
“Fundamentals of Database Systems” by R. Elmasri and S. Navathe
Student Activity:
1. Create your college database for
placement purpose.
2. Create faculty database of your college with their academic performance score
III YEAR V SEMESTER
DATABASE
MANAGEMENT SYSTEMS LAB
1.
Draw ER diagrams for
train services in a railway station
2.
Draw ER diagram for
hospital administration
3.
Creation of college database
and establish relationships between tables
4.
Write a view to extract
details from two or more tables
5.
Write a stored
procedure to process students results
6.
Write a program to demonstrate
a function
7.
Write a program to demonstrate
blocks, cursors & database triggers.
8.
Write a program to demonstrate
Joins
9.
Write a program d
10.
Write a program to demonstrate
of Aggregate functions
11.
Creation of Reports
based on different queries
12. Usage of file locking table locking, facilities in applications.
III
YEAR V SEMESTER
Paper VI : Software
Engineering
Course Objectives
The Objective of the course is to assist the student in understanding
the basic theory of software engineering, and to apply these basic theoretical
principles to a group software development project.
Course outcomes
1. Ability to gather and
specify requirements of the software projects.
2. Ability to analyze
software requirements with existing tools
3. Able to differentiate
different testing methodologies
4. Able to understand and
apply the basic project management practices in real life projects
5. Ability to work in a
team as well as independently on software projects
UNIT
I
INTRODUCTION:
Software
Engineering Process paradigms - Project management - Process and Project
Metrics – software estimation - Empirical estimation models - Planning - Risk
analysis - Software project scheduling.
UNIT
II
REQUIREMENTS
ANALYSIS : Requirement Engineering Processes – Feasibility
Study – Problem of Requirements – Software Requirement Analysis – Analysis
Concepts and Principles – Analysis Process – Analysis Model
UNIT
III
SOFTWARE
DESIGN: Software
design - Abstraction - Modularity - Software Architecture - Effective modular
design - Cohesion and Coupling - Architectural design and Procedural design -
Data flow oriented design.
UNIT
IV
USER
INTERFACE DESIGN AND REAL TIME SYSTEMS :User interface
design - Human factors - Human computer interaction - Human - Computer
Interface design - Interface design - Interface standards.
UNIT
V
SOFTWARE
QUALITY AND TESTING :Software Quality Assurance - Quality
metrics - Software Reliability - Software testing - Path testing – Control
Structures testing - Black Box testing - Integration, Validation and system
testing - Reverse Engineering and Re-engineering.
CASE tools –projects management, tools -
analysis and design tools – programming tools - integration and testing tool -
Case studies.
REFERENCE BOOKS:
1.
Roger Pressman S., “Software Engineering: A Practitioner's Approach”, 7th
Edition,
McGraw Hill, 2010.
2.
Software Engineering Principles and Practice by Deepak Jain Oxford
University Press
2.
Sommerville, “Software Engineering”, Eighth Edition, Pearson Education, 2007
3.
Pfleeger, “Software Engineering: Theory & Practice”, 3rd Edition, Pearson
Education,
2009
4.
Carlo Ghazi, Mehdi Jazayari, Dino Mandrioli, “Fundamentals of Software
Engineering”,
Pearson Education, 2003
Student Activity:
1. Visit any financial
organization nearby and prepare requirement analysis report
2. Visit any industrial
organization and prepare risk chart.
III YEAR V SEMESTER
Software Engineering Lab
1. Studying various phases of
Water-Fall Model.
2. Prepare SRS for Banking or On line book store domain problem
3.
Using COCOMO model estimate
effort for Banking or on line book store domain problem.
4.
Calculate effort using FP oriented estimation model
5. Analyze the Risk related to the project and prepare RMMM plan.
6.
Develop Time-line chart and
project table using PERT or CPM project scheduling methods.
7. Draw E-R diagram, DFD, CFD and STD for the
project.
8. Design of the test cases.
9. Prepare FTR. Version
control and change control for software configuration item
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CHEMISTRY :
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Paper
- V (INORGANIC, PHYSICAL & ORGANIC CHEMISTRY)
INORGANIC CHEMISTRY
UNIT – I
Coordination
Chemistry: 8h
IUPAC nomenclature - bonding
theories - Review of Werner's theory and Sidgwick's concept of coordination -
Valence bond theory - geometries of
coordination numbers 4-tetrahedral and square planar and
6-octahedral and its limitations, crystal filed theory - splitting of d-orbitals in octahedral,
tetrahedral and square-planar complexes - low spin and high spin complexes -
factors affecting crystal-field splitting energy, merits and demerits of
crystal-field theory. Isomerism in coordination compounds - structural
isomerism and stereo isomerism, stereochemistry of complexes with 4 and 6
coordination numbers.
UNIT-II
1. Spectral and magnetic
properties of metal complexes: 4h
Types of magnetic
behavior, spin-only formula, calculation of magnetic moments, experimental
determination of magnetic susceptibility-Gouymethod.
2.
Stability of metal complexes: 3h
Thermodynamic
stability and kinetic stability, factors affecting the stability of metal
complexes, chelate effect, determination of composition of complex by Job's
method and mole ratio method.
ORGANIC CHEMISTRY
UNIT-
III
Nitro hydrocarbons: 3h
Nomenclature and
classification-nitro hydrocarbons, structure -Tautomerism of nitroalkanes
leading to aci and keto form, Preparation of Nitroalkanes, reactivity
-halogenation, reaction with HONO (Nitrous acid),Nef reaction and Mannich
reaction leading to Micheal addition and reduction.
Nitrogen compounds : 12h
Amines (Aliphatic and
Aromatic): Nomenclature, Classification into 1°,
2°, 3° Amines
and Quarternary ammonium compounds. Preparative methods –
1. Ammonolysis of
alkyl halides 2. Gabriel synthesis 3. Hoffman's bromamide reaction (mechanism).
Reduction of Amides and Schmidt reaction. Physical
properties and basic character - Comparative basic strength of Ammonia, methyl
amine, dimethyl amine, trimethyl amine and aniline - comparative
basic strength of aniline, N-methylaniline and N,N-dimethyl aniline (in aqueous
and non-aqueous medium), steric effects and substituent effects. Chemical
properties: a) Alkylation b) Acylation c) Carbylamine reaction d) Hinsberg
separation e) Reaction with Nitrous acid of 1°, 2°, 3° (Aliphatic and aromatic
amines). Electrophillic substitution of Aromatic amines – Bromination and
Nitration. Oxidation of aryl and Tertiary amines, Diazotization.
UNIT-
V
Thermodynamics 15h
The first law of
thermodynamics-statement, definition of internal energy and enthalpy. Heat
capacities and their relationship. Joule-Thomson effect- coefficient.
Calculation of w, for the expansion of perfect gas under isothermal and adiabatic
conditions for reversible processes. State function. Temperature dependence of
enthalpy of formation-Kirchoff s equation. Second law of thermodynamics.
Different Statements of the law. Carnot cycle and its efficiency. Carnot
theorem. Concept of entropy, entropy as a state function, entropy changes in reversible
and irreversible processes. Entropy changes in spontaneous and equilibrium
processes.
List of
Reference Books
1.
Concise coordination chemistry by Gopalan and Ramalingam
2.
Coordination Chemistry by Basalo and Johnson
3.
Organic Chemistry by G.Mare loudan, Purdue Univ
4.
Advanced Physical Chemistry by
5.Text book
of physical chemistry by S Glasstone
6.Concise Inorganic Chemistry by
J.D.Lee
7. Advanced Inorganic Chemistry
Vol-I by Satyaprakash, Tuli, Basu and Madan
8. A Text Book of Organic Chemistry
by Bahl and Arun bahl
9.A Text
Book of Organic chemistry by I L Finar Vol I
10.Advanced
physical chemistry by Gurudeep Raj
SEMESTER-V
Paper - VI (INORGANIC, ORGANIC &
PHYSICAL CHEMISTRY)
45 hrs (3 h / w)
UNIT-I
1. Reactivity of metal complexes: 4h
Labile and inert
complexes, ligand substitution reactions - SN1 and SN2,substitution
reactions of square planar complexes - Trans effect and applications of trans
effect.
2.Bioinorganic chemistry: 4h
Essential elements, biological significance of Na, K, Mg, Ca, Fe, Co, Ni, Cu, Zn and Cl-. Metalloporphyrins – Structure and functions of hemoglobin, Myoglobin and Chlorophyll.
PHYSICAL CHEMISTRY
UNIT-II
1. Chemical kinetics 8h
Rate of reaction -
Definition of order and molecularity. Derivation of rate constants for first,
second, third and zero order reactions and examples. Derivation for time half
change. Methods to determine the order of reactions. Effect of temperature on
rate of reaction, Arrhenius equation, concept of activation energy.
2. Photochemistry 5h
Difference between thermal and
photochemical processes. Laws of photochemistry- Grothus-Draper's law and
Stark-Einstein's law of photochemical equivalence. Quantum yield-Photochemical
reaction mechanism- hydrogen- chlorine, hydrogen- bromine reaction. Qualitative
description of fluorescence, phosphorescence, Photosensitized reactions- energy
transfer processes (simple example)
ORGANIC CHEMISTRY
UNIT-
III
Heterocyclic Compounds 7h
Introduction and
definition: Simple five membered ring compounds with one hetero atom Ex. Furan.
Thiophene and pyrrole - Aromatic character – Preparation from 1,4,- dicarbonyl
compounds, Paul-Knorr synthesis.
Properties : Acidic
character of pyrrole - electrophillic substitution at 2 or 5 position,
Halogenation, Nitration and Sulphonation under mild conditions - Diels Alder reaction in furan.
Pyridine – Structure
- Basicity - Aromaticity - Comparison with pyrrole - one
method of preparation and properties -
Reactivity
towards Nucleophilic substitution reaction.
Carbohydrates 8h
Monosaccharides: (+)
Glucose (aldo hexose) - Evidence for cyclic structure of glucose (some negative
aldehydes tests and mutarotation) -
Proof for the ring size (methylation, hydrolysis and oxidation
reactions) - Pyranose structure (Haworth formula and chair conformational
formula).
(-) Fructose
(ketohexose) - Evidence of 2 - ketohexose structure (formation of pentaacetate,
formation of cyanohydrin its hydrolysis and reduction by HI). Cyclic structure
for fructose (Furanose structure and Haworth formula) - osazone formation from
glucose and fructose – Definition of anomers with examples.
Interconversion of
Monosaccharides: Aldopentose to Aldohexose (Arabinose to
D- Glucose,
D-Mannose) (Kiliani - Fischer method). Epimers, Epimerisation - Lobry de bruyn
van Ekenstein rearrangement. Aldohexose to Aldopentose (D-Glucose to
D- Arabinose) by Ruff
degradation. Aldohexose to Ketohexose
[(+) Glucose to (-)
Fructose] and Ketohexose to Aldohexose (Fructose to Glucose)
Introduction:
Definition of Amino acids, classification of Amino acids into alpha, beta, and
gamma amino acids. Natural and essential amino acids - definition
and examples, classification of alpha amino acids into acidic, basic and
neutral amino acids with examples. Methods of synthesis: General methods of synthesis
of alpha amino acids (specific examples - Glycine, Alanine, valine and leucine)
by following methods: a) from halogenated carboxylic acid b) Malonic ester
synthesis c) strecker's synthesis.
Physical properties:
Zwitter ion structure - salt like character - solubility, melting points,
amphoteric character, definition of isoelectric point.
Chemical properties:
General reactions due to amino and carboxyl groups - lactams from gamma and
delta amino acids by heating peptide bond (amide linkage). Structure and
nomenclature of peptides and proteins.
List of
Reference Books
1.
Concise coordination chemistry by Gopalan and Ramalingam
2.
Coordination Chemistry by Basalo and Johnson
3.
Organic Chemistry by G.Mare loudan, Purdue Univ
4.
Advanced Physical Chemistry by Atkins
5. Text book of physical
chemistry by S Glasstone
7.
Instrumentation and Techniques by Chatwal and Anand
8. Essentials of nano chemistry by pradeep
9. A Textbook of Physical Chemistry by Puri and Sharma
10. Advanced physical chemistry by Gurudeep Raj
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