RGPV 3rd Sem ME Syllabus | RGPV Mechanical Engg Syllabus 3rd Sem 2nd Year New Scheme Based On AICTE Flexible Curricula B.Tech.
The Rajiv Gandhi Prodhoyogiki Vishavdhyalaya i.e RGPV now disclose the new scheme for 2nd year students who are admitted into the RGPV University as well as their affiliated institutes. The new scheme name is Credit Based Grading System (CBGS); under these scheme the university will give BTech degree to all 2nd year admitted students. It is very good news for all students and as we also known as the RGPV is one the largest government technical university of MP. More than 1 lacks candidates get Graduation as well as master degree from that university.
In this article we are going to share RGPV CBGS 3rd Sem ME Syllabus for 2nd year students. In the RGPV CBGS 3rd sem there are 7-8 subjects in Mechanical Engineering branch i.e. Energy, Environment, Ecology & Society, Strength of Materials, Theory of Machines & Mechanisms, Manufacturing Process, Thermodynamics, Computer
Programming-I (Java), Rural Outreach (Internal Assessment), and NSS/NCC/Social
Work (Internal Assessment).
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RGPV CBGS 3rd Sem ME Syllabus
BT301 Mathematics-III Syllabus Mechanical 3rd Sem
Module 1: Numerical Methods – 1: (8 hours):
Solution of polynomial
and transcendental equations – Bisection method, Newton-Raphson method and
Regula-Falsi method. Finite differences, Relation between operators,
Interpolation using Newton’s forward and backward difference formulae.
Interpolation with unequal intervals: Newton’s divided difference and
Lagrange’s formulae.
Module 2: Numerical Methods – 2: (6 hours):
Numerical
Differentiation, Numerical integration: Trapezoidal rule and Simpson’s 1/3rd
and 3/8 rules. Solution of Simultaneous Linear Algebraic Equations by Gauss’s
Elimination, Gauss’s Jordan, Crout’s methods, Jacobi’s, Gauss-Seidal, and
Relaxation method.,
Module 3: Numerical Methods – 3: (10 hours):
Ordinary differential
equations: Taylor’s series, Euler and modified Euler’s methods. RungeKutta
method of fourth order for solving first and second order equations. Milne’s
and Adam’s predicator-corrector methods. Partial differential equations: Finite
difference solution two dimensional Laplace equation and Poission equation,
Implicit and explicit methods for one dimensional heat equation (Bender-Schmidt
and Crank-Nicholson methods), Finite difference explicit method for wave
equation.
Module 4: Transform Calculus: (8 hours):
Laplace Transform,
Properties of Laplace Transform, Laplace transform of periodic functions.
Finding inverse Laplace transform by different methods, convolution theorem.
Evaluation of integrals by Laplace transform, solving ODEs by Laplace Transform
method, Fourier transforms.
Module 5: Concept of Probability: (8 hours):
Probability Mass
function, Probability Density Function, Discrete Distribution: Binomial,
Poisson’s, Continuous Distribution: Normal Distribution, Exponential
Distribution.
Textbooks/References:
1. P. Kandasamy, K. Thilagavathy, K.
Gunavathi, Numerical Methods, S. Chand & Company, 2nd Edition, Reprint
2012.
2. S.S. Sastry, Introductory methods of
numerical analysis, PHI, 4th Edition, 2005.
ME302 Thermodynamics Syllabus Mechanical 3rd Sem
Basic Concepts & Laws of Thermodynamics :
Basic concepts: Property, Equilibrium, State,
Process, Cycle, Zeroth law of thermodynamics, Heat and work transfer. First law
of thermodynamics- first law applied to various systems steady flow process,
limitations of first law of thermodynamics.
Properties of Steam :
Pure Substance, Phase,
Phase-transformations, formation of steam, properties of steam, PVT surface,
HS,TS,PV,PH,TV diagram, processes of vapor measurement of dryness fraction, Use
of steam tables and Mollier chart.
Air standard cycles:
Carnot, Otto, Diesel,
Dual cycles and their comparison, Brayton cycle, Non reactive gas mixture, PVT
relationship, mixture of ideal gases, properties of mixture of ideal gases,
internal energy, Enthalpy and specific heat of gas mixtures.
Fuels & combustion :
Actual & theoretical
Combustion processes , Enthalpy of formation & enthalpy of reaction, first
law analysis of reacting systems, Adiabatic flame temperature , Basic concept
of Third Law of thermodynamics .
EVALUATION
ME303 Materials Technology Syllabus Mechanical 3rd Sem
1. Solidification of metals ,
Crystallisation, Crystal and amorphous , different types of bonds in different
metals, Crystallography. Stability and metastability of metals. Different
mechanical properties of metals and other engineering materials like strength,
hardness, elasticity, plasticity, Malleability, Ductility, Creep, Fatigue etc.
Introduction to industrial metals, steels and prevailing manufacturing methods
by manufacturers.
2. Cooling curves, Isomorphous, Utectic,
Eutectoid , Eutectoid solid solution, Peritectic and other phase diagrams,
Alloying , Characteristics of alloying elements, Iron – Carbon phase diagram,
T-T-T diagrams, Types of Cast Iron. Types of Stainless Steels, Elastic, anelastic
and Viscoelastic behaviour.
3. Heat treatment of metals, Based on
phase diagram and T-T-T-Diagram the heat treatment of various metals, Bulk heat
treatments, surface heat treatments,Case carburising, Types of Anealing,
Normalising,Spherodising, Phase Transformations like Parlite, Cementite,
Austenite, Troostite,Bainite,Hard and soft Martensite etc. Laser hardening,
Cyniding, Boriding, Nitriding, Flame hardening, Ion implantation, Etc. Heat
treatment cycles. Metallographic studies, Optical Microscope, Electron
Microscope.
4. Destructive and non-destructive testing
methods, Tensile test, Compression test, shear test, bend test, Different types
of Hardness tests, Impact tests, Fatigue tests, Hardenability test. Fracture
analysis, NDT Methods. Different properties of Steels, Aluminium and it’s
alloys, Copper and it’s alloys, Manganese and it’s alloys, Chromium and it’s
alloys, Nickel and it’s alloys.
5. Chemical Analysis of different alloying
elements in commercial metals, C, Fe, Cr, Ni, Mn, Mg, S, P, Co, Mo, Etc.
Different chemical reagents, Equipments , Volumetric and Gravimetric analysis,
Spot test, Colorimetric methods, Optical and spectrophotometric analysis.
References :
List of experiments :
1. Metallographic studies – Study of
Optical microscope, Optically flat surface preparation, etching reagents, Grain
size- ASME no., micro structures, Image analysis, Standard specimen,
3. Hardness and Hardenability test, Jeremy
Cony test. Soft and hard Martensite.
ME304 Strength of Material Syllabus Mechanical 3rd Sem
Stress and strain:
stresses in members of a
structure, axial loading, normal stress, shear stress, analysis of simple
structures, stepped rods, members in series and parallel: stress strain
diagram, Hooke’s law, stress due to temperature, Poisson’s ratio, Bulk modulus,
shear strain, relation among elastic constants, residual stress, fiber
reinforced composite materials, strain energy under axial loads and stresses
due to impact of falling weights. Transformation of stress and strain,
principal stresses, normal and shear stress, Mohr’s circle and its application
to two and three dimensional analysis.
Bending:
pure bending, symmetric
member, deformation and stress, bending of composite sections, eccentric axial
loading, shear force and BM diagram, relationship among load, shear and BM,
shear stresses in beams, strain energy in bending, deflection of beams,
equation of elastic curve, Macaulay’s method and Area moment method for
deflection of beams.
Torsion in shafts:
Tensional stresses in a shafts, deformation in
circular shaft, angle of twist, stepped and hollow transmission shafts.
Theories of failures:
maximum normal stress
& shear stress theory; maximum normal and shear strain energy theory;
maximum distortion energy theory; application of theories to different
materials and loading conditions.
Columns & struts :
stability of structures,
Euler’s formula for columns with different end conditions, Rankine’s formula.
EVALUATION
8 S Ramamurthum , Strength of materials , Dhanpat Rai
List of experiments :
1. Standard tensile test on MS and CI test
specimen with the help of UTM
ME 305 Manufacturing Process Syllabus Mechanical 3rd Sem
Casting :
Types of casting process
.Molding and Foundry core sands and their properties, gating, runners, risers,
solidification, defects and elimination, molding machines, centrifugal casting,
dye casting, shell molding; Lost wax molding; continuous casting; cupola
description and operation.
Welding:
Types of welding ,Gas
welding method, flames, gas cutting, Electric arc welding, AC and DC welding
machines and their characteristics, flux, electrodes, submerged arc welding,
TIG & MIG welding; pressure welding; electric resistance welding spot, seam
and butt welding; Thermit chemical welding; brazing and soldering, welding
defects & remedies .safety precautions .
Pattern Making:
Types of patters,
Pattern and pattern making, pattern allowances; pattern design considerations,
core, core boxes .
Forging:
types of forging
operations Theory and application of forging processes description; , drop and
horizontal forging machines .
Press working:
Description and
operation of processes, process of shearing, punching, piercing, blanking,
trimming, perfecting, notching, lancing, embossing, coining, bending, forging
and drawing; press, tool dies, auxiliary equipment, safety devices, stock
feeders, scrap cutters, forces, pressure and power requirements .
Rolling:
Types of Rolling
operations ,General description of machines and process; rolling of structural
section plates and sheets; hot and cold rolling techniques
List of Experiments :
1. Study of tools used for various
manufacturing processes , study includes application & live demonstration
of hand and machine tools .
EVALUATION
1. Anderson and Tetro; Shop Theory; Mc
Graw Hills
ME306 Thermal Engg Lab Syllabus Mechanical 3rd Sem
1. To determine volumetric and isothermal
efficiencies of a single stage compressor.
Download RGPV Mechanical Engg Syllabus 3rd Sem
Download RGPV Mechanical Engg Syllabus 3rd Sem
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Mechanical
Engineering, III-Semester
BE-3001
Energy, Environment, Ecology & Society
Unit –I
Energy-
Sources of Energy : Renewable & Non Renewable, Fossil fuel, Biomass
Geothermal, Hydrogen, Solar, Wind, hydal, nuclear sources.
Unit –II
Ecosystem
– Segments of Environment: Atmosphere, hydrosphere, Lithosphere, biosphere.
Cycles in Ecosystem – Water, Carbon, Nitrogen. Biodiversity: Threats and
conservation,
Unit
–III
Air Pollution & Sound Pollution
-
Air
Pollution: Air pollutants, classification, (Primary & secondary Pollutants)
Adverse effects of pollutants. Causes of Air pollution chemical, photochemical,
Green house effect, ozone layer depletion, acid Rain.
Sound
Pollution: Causes, controlling measures, measurement of sound pollution
(deciblage), Industrial and non – industrial.
Unit
–IV
Water
Pollution– Water Pollution: Pollutants in water, adverse effects. Treatment of
Domestic & Industrial water effluent.
Soil
Pollution – Soil Profile, Pollutants in soil, their adverse effects,
controlling measures.
Unit
–V
Society,
Ethics & Human values– Impact of waste on society. Solid waste management
(Nuclear, Thermal, Plastic, medical, Agriculture, domestic and e-waste). Ethics
and moral values, ethical situations, objectives of ethics and its study .
Preliminary studies regarding Environmental Protection Acts , introduction to
value education, self exploration, sanyam & swasthya.
References:
1. Harris, CE, Prichard MS, Rabin’s MJ,
“Engineering Ethics”; Cengage Pub.
2. Rana SVS ; “Essentials of Ecology and
Environment”; PHI Pub.
3. Raynold, GW “Ethics in information
Technology”; Cengage.
4. Svakumar; Energy Environment &
Ethics in society; TMH
5. AK De “Environmental Chemistry”; New Age Int. Publ.
6. BK Sharma, “Environmental Chemistry” ; Goel Publ. House.
7. Bala Krishnamoorthy; “Environmental
management”; PHI
8. Gerard Kiely, “Environmental
Engineering” ; TMH
9. Miller GT JR; living in the Environment
Thomson/cengage
10. Cunninghan WP and MA; principles of
Environment Sc; TMH
11. Pandey, S.N. & Mishra, S.P.
Environment & Ecology, 2011, Ane Books , Pvt. Ltd, New Delhi
12. Joseph, B. Environmental Studies, 2009
Tata Mcgraw Hill, Edu India Ltd. New Delhi.
13. Gour R.R, Sangal, R &Bagaria, G.P. ,
Excel Books, A-45, Naraina Phase-I ,New Delhi.-110028
RAJIV GANDHI
PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based
Grading System
Mechanical Engineering,
III-Semester
AU/IP/ME-3002
Strength of Materials
Objectives
:
To
familiarize the students with the fundamentals of deformation, stresses,
strains in structural elements.
Outcomes
:
At
the completion of this course, students should be able to
1. Know the concepts of stress and strain.
2. Analyze the beam of different cross
sections for shear force, bending moment, slope and deflection.
3. Understand the concepts necessary to
design the structural elements and pressure vessels.
Stress
and strain: stresses in members of a structure, axial loading, normal stress,
shear stress, analysis of simple structures, stepped rods, members in series
and parallel: stress strain diagram, Hooke’s law, stress due to temperature,
Poisson’s ratio, Bulk modulus, shear strain, relation among elastic constants,
residual stress, fiber reinforced composite materials, strain energy under
axial loads and stresses due to impact of falling weights. Transformation of
stress and strain, principal stresses, normal and shear stress, Mohr’s circle
and its application to two and three dimensional analysis.
Bending:
pure bending, symmetric member, deformation and stress, bending of composite
sections, eccentric axial loading, shear force and BM diagram, relationship
among load, shear and BM, shear stresses in beams, strain energy in bending,
deflection of beams, equation of elastic curve, Macaulay’s method and Area
moment method for deflection of beams.
Torsion
in shafts: Tensional stresses in a shafts, deformation in circular shaft, angle
of twist, stepped and hollow transmission shafts.
Theories
of failures: maximum normal stress & shear stress theory; maximum normal
and shear strain energy theory; maximum distortion energy theory; application
of theories to different materials and loading conditions.
Columns
& struts : stability of structures, Euler’s formula for columns with
different end conditions, Rankine’s formula.
EVALUATION
Evaluation
will be continuous an integral part of the class as well through external
assessment.
References:
1.
Beer FP, Johnson Mechanics of Materials ,Sixth Edition ;Mc Graw Hills
2 Debabrata Nag & Abhijet Chanda
:Strength of Materials : Wiley
3 Rattan; Strength of materials;Second
Edition , Mc Graw Hills
4. Nash William; Schaum’s Outline Series;
forth Edition Strength of Materials;Mc Graw Hills
5. Singh Arbind K; Mechanics of Solids;
PHI
6. Sadhu Singh; Strength of Materials;
Khanna Pub.
7
R Subramannian , Strength of materials OXFORD University Press ,Third Edition .
8 S Ramamurthum , Strength of materials , Dhanpat Rai
List of experiments :
1. Standard tensile test on MS and CI test specimen with the
help of UTM
2. Direct/ cross Shear test on MS and CI specimen
3. Transverse bending test on wooden beams to obtain modulus of
rupture
4. Fatigue test
5. Brinell Hardness tests
6. Vicker hardness test
7. Izod/Charpy test
8 Rockwell Hardness test
RAJIV GANDHI
PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit Based
Grading System
Mechanical
Engineering, III-Semester
AU/IP/ME-3003
Theory of Machines & Mechanisms
Objectives
:
To
expose the students to learn the fundamentals of various laws governing rigid
bodies and its motions.
Outcomes
: At the completion of this course, students should be able to know
1. Basic mechanisms, velocity and
acceleration of simple mechanisms
2. Drawing the profile of cams and its
analysis
3. Gear train calculations , Gyroscopes
4. Inertia force analysis and flywheels
5. Balancing of rotating and reciprocating
masses
Mechanisms
and Machines: Links, Pairs, Chains, Structure, Mechanism, Machine, Equivalent
linkage, Degrees of freedom, Gruebler’s & Kutzback’s criterion, Inversions
of four bar chain, Mechanism with lower pairs Pantograph, Straight line motion
mechanisms, Davis and Ackermann’s steering mechanisms, Hooke’s joint, Numerical
problems based on above topics..
Motion:
Plane motion, Absolute & Relative motion, Displacement, Velocity and
Acceleration of a point, Velocity and Acceleration Analysis by Graphical &
Analytical methods, Velocity image, Velocity of rubbing, Kennedy’s Theorem,
Acceleration image, Acceleration polygon, Coriolis acceleration component,
Klein’s construction, Velocity and Acceleration Analysis using Complex Algebra
(Raven’s Approach), Numerical problems based on above topics
Gears:
Classification of gears, Helical, Spiral, Bevel, Worm and Spur Gear, Spur Gear
Terminology, Law of gearing, Tooth profiles, , velocity of sliding, Path of
contact, Arc of contact, Contact Ratio, Interference and Undercutting, ,
Conjugate action, Numerical problems based on above topics
Gear
Trains : Simple, compound, reverted and epi cyclic gear trains . Velocity ratio
and torque calculation in gear trains
Cams:
Classification of Cams and Followers, Radial Cam Terminology, Analysis of
Follower motion (uniform, modified uniform, simple harmonic, parabolic,
cycloidal), Pressure Angle, Radius of Curvature, Cam Profile for radial and
offset followers Synthesis of Cam Profile by Graphical Approach, Cams with
Specified Contours.
Gyroscope:
Gyroscopic Action in Machines, Angular Velocity and Acceleration, Gyroscopic
torque/ couple, Gyroscopic effect on Naval Ships, Stability of Two and Four
Wheel Vehicles, Rigid disc at an angle fixed to a rotating shaft.
Belt
Rope & Chain Drive : Types of Belts, Velocity ratio of a belt drive, Slip
in belts, Length of open belt and crossed belt, Limiting ratio of
belt-Tensions, Power transmitted by a belt, Centrifugal tension, Maximum
tension in a belt, Condition for maximum power transmitted, Initial tension in
a belt, Creep in belt, Applications of V-Belt, Rope and Chain drives.
EVALUATION
Evaluation
will be continuous an integral part of the class as well through external
assessment.
Reference
:
1. Thomas Bevan; Theory of Machines; Pearson
Education
2. Rattan SS; Theory of machines; MC Graw
Hills
3. Ambekar AG; Mechanism and Machine
Theory; PHI. Eastern Economy Edition 2015
4. Uicker & Shigley, Theory of
machines & Mechanism Second Edition Oxford University Press
5. Dr.Jagdish Lal; Theory of Machines;
Metropolitan Book Co; Delhi
6. Rao J S and Dukkipati; Mechanism and
Machine Theory; New Age Delhi.
7. Abdulla Shariff , Theory of Machines .
List of Experiments:
1
To finds out gyroscopic couple .
2 To
Find out velocity & acceleration of slider crank mechanism by Klin”s
Construction
3 To
find out velocity ratio of various gear trains
4 To
study various types of belt drives
& find out the velocity ratio of the drive .
5 To
Draw the cam profile .
6 Study
of working models of various popular mechanisms like quick return mechanism etc
7 .To
draw Involute profile of a gear by
generating method .
8. Study of the mechanisms like Pantograph mechanism , Davis
& Ackerman’s steering mechanisms etc .
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Mechanical
Engineering, III-Semester
AU/IP/ME-3004
Manufacturing Process
Objectives
:
To
make the students aware of different manufacturing processes like casting,
metal forming, metal cutting and gear manufacturing.
Outcomes
:
1. Concepts of casting Technology.
2. Mechanical working of metals.
3 Concepts of welding process
4 Concept of forging methods
5 Understanding press working .
Casting
: Types of casting process .Molding and Foundry core sands and their
properties, gating, runners, risers, solidification, defects and elimination,
molding machines, centrifugal casting, dye casting, shell molding; Lost wax
molding; continuous casting; cupola description and operation.
Welding:
Types of welding ,Gas welding method, flames, gas cutting, Electric arc
welding, AC and DC welding machines and their characteristics, flux,
electrodes, submerged arc welding, TIG & MIG welding; pressure welding;
electric resistance welding spot, seam and butt welding; Thermit chemical
welding; brazing and soldering, welding defects & remedies .safety
precautions
Pattern
Making: Types of patters, Pattern and pattern making, pattern allowances;
pattern design considerations, core, core boxes .
Forging:
types of forging operations Theory and application of forging processes
description; , drop and horizontal forging machines .
Press
working: Description and operation of processes, process of shearing, punching,
piercing, blanking, trimming, perfecting, notching, lancing, embossing,
coining, bending, forging and drawing; press, tool dies, auxiliary equipment,
safety devices, stock feeders, scrap cutters, forces, pressure and power
requirements .
Rolling:
Types of Rolling operations ,General description of machines and process;
rolling of structural section plates and sheets; hot and cold rolling
techniques
Metal
Machining : Basics of Lathe machines , operations & components ,working
principle of Shaper & planner ,Introduction to milling ,grinding and
drilling machines .
EVALUATION
Evaluation
will be continuous an integral part of the class as well through external
assessment.
References:
1. Anderson and Tetro; Shop Theory; Mc
Graw Hills
2. Kaushish JP; Manufacturing Processes;
PHI Learning.
3. Kalpakjian Producting Engineering
PEARSON Education
4. Chapman; Workshop Technology
5. Philip F Ostwald ; Manufacturing
Process & systems : John Wiley
6. Raghuvanshi; Workshop Technology ;
Dhanpat Rai.
7. Hajra Choudhary; Workshop Technology:,
Vol I
List of Experiments :
1. Study of tools used for various manufacturing processes ,
study includes application & live demonstration of hand and machine tools .
2. Hands on Exercise on Pattern Making
3. Performance on Metal Casting of Simple component
4. Performance on Welding of simple work piece (Example Arc and
Resistance Welding)
5. Exercise Problems on Welding
6. Exercise problems on Casting
7. Study of forging machine & demonstration of various operations
of forging .
8. Study of Hydraulic ,Pneumatic presses & demonstration of
piercing, slitting, deep drawing operations on press machine .
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Mechanical
Engineering, III-Semester
AU/IP/ME-3005
Thermodynamics
Objectives
: To develop ability and gain insight into the process of problem-solving, with
emphasis on thermodynamics .Specially in following manner:
•
Apply conservation principles (mass and energy) to evaluate the performance of
simple engineering systems and cycles, • Evaluate thermodynamic properties of
simple homogeneous substances, • Analyze processes and cycles using the second
law of thermodynamics to determine maximum efficiency and performance, •
Discuss the physical relevance of the numerical values for the solutions to
specific engineering problems and the physical relevance of the problems in
general, and • Critically evaluate the validity of the numerical solutions for
specific engineering problems.
Outcomes
: At the completion of this course, students should be able to
1. find values of thermodynamic properties
in tables;
2. draw thermodynamic processes on
pressure-temperature, pressure-volume, or temperature-volume diagrams;
3. use compressibility charts;
4. calculate expansion or compression work
in a closed system;
5. use conservation of mass to determine
the change in mass of a system
Basic
Concepts & Laws of Thermodynamics : Basic concepts: Property, Equilibrium,
State, Process, Cycle, Zeroth law of thermodynamics, Heat and work transfer.
First law of thermodynamics- first law applied to various systems steady flow
process, limitations of first law of thermodynamics.
Second
law of thermodynamics, heat engine, heat reservoir, Refrigerator, heat pump,
Carnot's cycle, statements of second law Reversible and irreversible processes,
consequence of second law, Clausious
Inequality
, Entropy, T-S diagrams, Available & Unavailable energy Availability
Concept .
Properties
of Steam : Pure Substance, Phase, Phase-transformations, formation of steam,
properties of steam, PVT surface, HS,TS,PV,PH,TV diagram, processes of vapor
measurement of dryness fraction, Use of steam tables and Mollier chart.
Air
standard cycles: Carnot, Otto, Diesel, Dual cycles and their comparison,
Brayton cycle, Non reactive gas mixture, PVT relationship, mixture of ideal
gases, properties of mixture of ideal gases, internal energy, Enthalpy and
specific heat of gas mixtures.
Fuels
& combustion : Actual & theoretical Combustion processes , Enthalpy of
formation & enthalpy of reaction, first law analysis of reacting systems,
Adiabatic flame temperature , Basic concept of Third Law of thermodynamics .
Steam
Tables Mollier Charts & tables connected to reactive systems are allowed in
Examination hall .
EVALUATION
Evaluation
will be continuous an integral part of the class as well through external
assessment.
References:
1.
P.K.Nag; Engineering Thermodynamics; Mc Graw Hills Fifth Edition
2 Cengel Y; Thermodynamics; MC Graw
Hills ,Eight Edition
3 Kross & Potter Thermodynamics for
Engineers CENGAGE Learning
4 Moran, Shapiro ,Boettner Principles of
Engineering Thermodynamics Wiley student edition
5 P Chattopadhya , Engineering
Thermodynamics Second Edition,OXFORD University Press
5 Zemansky Heat & Thermodynamics ,
Eight Edition , Mc Graw Hills India Education
6. Achuthan M; Engineering Thermodynamics
by, PHI India.
7 R Yadav Applied Thermodynamics ,
Central Publishing house Allahabad
RAJIV
GANDHI PROUDYOGIKI VISHWAVIDYALAYA, BHOPAL
Credit
Based Grading System
Mechanical
Engineering, III-Semester
AU/IP/ME/AT/MI
-3006 Computer Programming-I (JAVA)
Basic
Java Features - C++ Vs JAVA, JAVA virtual machine, Constant & Variables,
Data Types, Class, Methods, Objects, Strings and Arrays, Type Casting,
Operators, Precedence relations, Control Statements, Exception Handling, File
and Streams, Visibility, Constructors, Operator and Methods Overloading, Static
Members, Inheritance: Polymorphism, Abstract methods and Classes
Java
Collective Frame Work - Data Structures: Introduction, Type-Wrapper Classes for
Primitive Types, Dynamic Memory Allocation, Linked List, Stack, Queues, Trees,
Generics:
Introduction, Overloading Generic Methods, Generic Classes, Collections:
Interface Collection and Class Collections, Lists, Array List and Iterator, Linked
List, Vector.
Collections
Algorithms: Algorithm sorts, Algorithm shuffle, Algorithms reverse, fill, copy,
max and min Algorithm binary Search, Algorithms add All, Stack Class of Package
java. Util, Class Priority Queue and Interface Queue, Maps, Properties Class,
Un-modifiable Collections.
Advance
Java Features - Multithreading: Thread States, Priorities and Thread
Scheduling, Life Cycle of a Thread, Thread Synchronization, Creating and
Executing Threads, Multithreading with GUI, Monitors and Monitor Locks.
Networking: Manipulating URLs, Reading a file on a Web Server, Socket
programming, Security and the Network, RMI, Networking, Accessing Databases
with JDBC: Relational Database, SQL, MySQL, Oracle
Advance
Java Technologies - Servlets: Overview and Architecture, Setting Up the Apache
Tomcat Server, Handling HTTP get Requests, Deploying a web Application,
Multitier Applications, Using JDBC from a Servlet, Java Server Pages (JSP):
Overview, First JSP Example, Implicit Objects, Scripting, Standard Actions,
Directives, Multimedia: Applets and Application: Loading, Displaying and
Scaling Images, Animating a Series of Images, Loading and playing Audio clips
Advance
Web/Internet Programming (Overview): J2ME, J2EE, EJB, XML.
References:
1. Deitel & Deitel, ”JAVA, How to
Program”; PHI, Pearson.
2. E. Balaguruswamy, “Programming In
Java”; TMH Publications
3. The Complete Reference: Herbert
Schildt, TMH
4. Peter Norton, “Peter Norton Guide To
Java Programming”, Techmedia.
5. Merlin Hughes, et al; Java Network
Programming , Manning Publications/Prentice Hall
List of Program to be made
(Expandable)
1. Installation of J2SDK
2. Write a program to show Concept of CLASS in JAVA
3. Write a program to show Type Casting in JAVA
4. Write a program to show How Exception Handling is in JAVA
5. Write Programs to show Inheritance and Polimorphism.
6. Write a program to show Interfacing between two classes
7. Write a program to Add a Class to a Package
8. Write a program to demonstrate AWT.
9. Write a Program to show Data Base Connectivity Using JAVA
10. Write a Program to show “HELLO JAVA ” in Explorer using Applet
11. Write a Program to show Connectivity using JDBC
12. Write a program to demonstrate multithreading using Java.
13. Write a program to demonstrate applet life cycle.
RGPV CBGS 3rd Sem ME Subject list
RGPV CBGS 3rd Sem Subjects ME | Bachelor of Technology B.Tech. (Mechanical Engineering) |
||
S. NO.
|
Subject Code
|
Subject Name
|
1
|
BT-3001
|
Energy, Environment, Ecology & Society
|
2
|
ME-3002
|
Strength of Materials
|
3
|
ME-3003
|
Theory of Machines & Mechanisms
|
4
|
ME-3004
|
Manufacturing Process
|
5
|
ME-3005
|
Thermodynamics
|
6
|
ME-3006
|
Computer Programming-I (Java)
|
7
|
ME-3007
|
Rural Outreach (Internal Assessment)
|
8
|
ME-3008
|
NSS/NCC/Social Work (Internal Assessment)
|
Download RGPV CBGS 3rd Sem Mechanical Engineering Syllabus
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