2nd Year RGPV 4th sem CBCS ME Syllabus | RGPV Mechanical Engg CBCS Syllabus 2nd Year
RGPV 3rd Sem Mechanical Engineering Subjects
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RGPV 4th Sem Mechanical Engineering Subjects
|
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Material Science
·
DC
Strength of Materials
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DC
Theory of Machines & Mechanisms
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DC
Thermodynamics
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DC
Manufacturing Process
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HU
Communication Skills
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DC
Idea Generation
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DC
Learning Through Experts
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Fluid Mechanics
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EAS
System Engineering
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DC
Machine Drawing & CAD
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DC
Energy Conversion
·
DC
Machine Design-I
·
DE
Mathematics-III
·
EAS
Computer Programming
·
HU
NSS/NCC
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2nd Year RGPV 4th sem CBCS Mechanical Engg Syllabus (4th Sem Syllabus)
Now RGPV Bhopal announced the 2nd year 4th sem syllabus of ME branch; it contain above mentioned subjects. The RGPV also give the detail of 4th sem CBCS Mechanical practical list. If you want to download RGPV 4th sem CBCS Practical list of ME branch; please follow below links:
DC - Fluid Mechanics
EAS - System Engg.
DC - Machine Drwing and CAD
DC - Energy Conversion
DC - Machine Design -1
DE - Mathematics -3
EAS - Computer programming
Hu - NSS / NCC
https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/me161116011930.pdf
Download RGPV CBCS Mech 4th Sem Syllabus >>> Coming soon
- RGPV CBCS 4th Sem Fluid Mechanics Syllabus
Fluid Static’s : Review of Basic concepts &properties of the fluid . Pressure at a point, pressure
variation in static fluid, Absolute and gauge pressure, manometers, Forces on plane and curved
surfaces ; buoyant force, Stability of floating and submerged bodies, Relative equilibrium.
Kinematics of Flow : Types of flow-ideal & real , steady & unsteady, uniform & non-uniform,
one, two and three dimensional flow, path lines, streak-lines, streamlines and stream tubes;
continuity equation for one and three dimensional flow, rotational & irrotational flow,
circulation, stagnation point, separation of flow, sources & sinks, velocity potential, stream
function, flow net & its applications , method of drawing flow nets.
Dynamics of Flow: Euler’s equation of motion along a streamline and derivation of Bernoulli’s
equation, application of Bernoulli’s equation, energy correction factor, linear momentum
equation for steady flow; momentum correction factor. The moment of momentum equation,
forces on fixed and moving vanes and other applications. Fluid Measurements: Velocity
measurement ( Pitot tube, current meters etc.); flow measurement (orifices, nozzles, mouth
pieces, orifice meter, nozzle meter, venturi-meter, weirs and notches).
Dimensional Analysis : Dimensional analysis, dimensional homogeneity, use of Buckingham-pi
theorem, calculation of dimensionless numbers
Introduction to boundary layer, Boundary layer development on a flat plate and its
characteristics - Boundary layer thickness, displacement thickness, momentum thickness, energy
thickness. Momentum equation for boundary layer by Von karman, drag on flat plate, boundary
layer separation and its control. Aerofoil theory, lift and drag coefficients, streamlined and bluff
bodies.
Flow through Pipes : Reynolds experiment & Reynolds number, laminar & turbulent flow,
Introduction to Navier Stokes’ Equation, relation between shear & pressure gradient, laminar
flow through circular pipes, friction factor, laminar flow between parallel plates, hydrodynamic
lubrication.
- RGPV CBCS 4th Sem System Engg. Syllabus
What is System Engineering, Origin, Examples of Systems requiring systems
engineering,Systems Engineer Career Development Model, Perspectives of Systems
Engineering, Systems Domains, Systems Engineering Fields, SystemEngineering Approaches.
Structure of Complex Systems, System Building Blocks and Interfaces, Hierarchy of Complex
Systems, System Building Blocks, The System Environment, Interfaces and Interactions,
Complexity in Modern Systems.
Concept Development and Exploration, Originating a New System, Operations Analysis,
Functional Analysis, Feasibility, System Operational Requirements, Implementation of Concept
Exploration.
Engineering Development, Reducing Program Risks, Requirements Analysis, Functional
Analysis and Design, Prototype Development as a Risk Mitigation Technique, Development
Testing, Risk Reduction.
Integration and Evaluation, Integrating, Testing, And Evaluating The Total System, Test
Planning And Preparation, System Integration, Developmental System Testing, Operational Test
And Evaluation, Engineering For Production, Transition From Development To Production,
Production Operations.
- RGPV CBCS 4th Sem Machine Drwing and CAD Syllabus
Drawing conventions; IS codes, sectional views and sectioning, surface finish and tolerances
representation of machine parts such as external and internal threads, slotted heads, square ends,
and flat radial ribs, slotted shaft, splined shafts, bearings, springs, gears, Rivet heads and Riveted
joints, Welded joints, Drawing of Threaded fasteners .
Assembly Drawing : Assembly Machine Drawing ,Basic concept of assembly drawing ,bill of
materials, Assembly drawing of Cotter and Knuckle joints, pedestal and footstep bearings,
Engine parts- crosshead and stuffing box, IC engines parts - piston and connecting rods; lathe
machine parts-Tool post and Tail Stock.
CAD : software and hardware required to produce CAD drawings Software: operating systems;
CAD software packages e g AutoCAD, AutoCAD/Inventor, Micro station, Catia,
Pro/ENGINEER, Solid works; minimum system requirements. Preparing & interpreting CAD
drawing, orthographic projections; Commands: absolute/relative/polar coordinates; features eg
line types, grids, snaps, circle, text, hatching, dimensioning, layers/levels, colour; viewing e g
zoom, pan; inserting other drawings e g symbols, blocks; modifying e g copy, rotate, move,
erase, scale, chamfer, fillet Interpret: determine properties of drawn objects e g list, distance,
area, volume use CAD software to produce 2D & 3D assembly drawings and views
3D environment: 3D views e g top, front, side, isometric 3D models: 3D techniques e g addition
and subtraction of material, extrude, revolve, sweep, 3D coordinate entry (x, y, z), wire frame
drawing, 2D to 3D (thickness, extrusion); surface models; solid
- RGPV CBCS 4th Sem Energy Conversion Syllabus
Internal Combustion Engine: S.I. and C.I. engines of two and four stroke cycles, real cycle
analysis of SI and CI engines, determination of engine dimensions, speed, fuel consumption,
output, mean effective pressure, efficiency, factors effecting volumetric efficiency, heat balance,
performance characteristics of SI and CI engines, cylinder arrangement, firing order, power
balance for multi-cylinder engines .
Combustion in SI engines: Flame development and propagation ,Pressure-Crank Angle diagram
, Stages of Combustion ignition lag, effect of air density, temperature, engine speed, turbulence
and ignition timings, physical and chemical aspects , abnormal Combustion , effect of engine and
fuel variables on abnormal combustion , pre-ignition, its causes and remedy, salient features of
various type combustion chambers.
Combustion in C.I. Engines: Times base indicator diagrams and their study, various stages of
combustion, delay period, diesel knock, knock inhibitors, salient features of various types of
combustion chambers .
I.C. Engine System: Fuels, ignition systems, cooling, exhaust/scavenging and lubrication
system. Fuel metering in SI engine: Fuel injection in SI engine (MPFI, TBI,CRDI ), Theory of
carburetion, Solex Carburetor, simple problems on carburetion. Fuel metering in CI engines:
Fuel injection in CI engine ,Working Principle of fuel pump & fuel injectors , types of nozzles ,
simple numerical problems . Cooling & lubrication of SI & CI Engines
Supercharging & Turbo charging : Methods of supercharging,& turbo charging Effects of
super charging and turbo charging . Engine Modifications for supercharging, supercharging of
two stroke engines. micro processor controlled supercharging .
- RGPV CBCS 4th Sem Machine Design -1 Syllabus
Mechanical Engineering design - Design considerations, Design Procedure Material selection
Modes of failure - Theories of failure , causes of stress concentration; stress concentration in
tension, bending and torsion; reduction of stress concentration, theoretical stress concentration
factor, notch sensitivity, fatigue stress concentration factor, cyclic loading, endurance limit, S-N
Curve, loading factor, size factor, surface factor. Design consideration for fatigue, Goodman and
modified Goodman's diagram, Soderberg equation, Gerber parabola, design for finite life,
cumulative fatigue damage
Design of Fasteners : Design of cotter and knuckle joints.. Fasteners and keys , Design of
welded joints , Fillet and butt welds , Design of riveted joints. Design of bolted joints . Power
screws .
Selection & Design of bearings : Reynold's equation, stable and unstable operation, heat
dissipation and thermal equilibrium, boundary lubrication, dimensionless numbers, Design of
journal bearings, Rolling-element Bearings: Types of rolling contact bearing, bearing friction
and power loss, bearing life; Radial, thrust & axial loads; Static & dynamic load capacities;
Selection of ball and roller bearings; lubrication and sealing.
Design of Springs : Design of helical compression & tension spring , design of leaf spring &
torsion springs , fatigue loading of springs ,surge in springs ,spiral springs .
- RGPV CBCS 4th Sem Mathematics -3 Syllabus
Fourier Series: Fourier Series for Continuous & Discontinuous Functions, Expansion of odd
and even periodic functions, Half-range Fourier series, Complex form of Fourier Series,
Integral Transforms:
Fourier Transform-Complex Fourier Transform, Fourier Sine and Cosine Transforms,
Applications of Fourier Transform in Solving the Ordinary Differential Equation. Laplace
Transform- Introduction of Laplace Transform, Laplace Transform of elementary Functions,
Properties of Laplace Transform, Change of Scale Property, First and Second Shifting
Properties, Laplace Transform of Derivatives and Integrals. Inverse Laplace Transform & its
Properties, Convolution theorem, Applications of Laplace Transform in solving the Ordinary
Differential Equations.
Functions of Complex Variables: Analytic functions, Harmonic Conjugate, CauchyRiemann
Equations, Line Integral, Cauchy’s Theorem, Cauchy’s Integral Formula, Singular
Points, Poles & Residues, Residue Theorem, Application of Residues theorem for
Evaluation of Real Integrals.
Numerical Solution of Ordinary Differential equations: Picard’s Method, Taylor’s Series,
Euler’s Method, Modified Euler’s Method, Runge-Kutta methods, Milne’s and Adam’s
Bashforth Methods.
- RGPV CBCS 4th Sem Computer programming Syllabus
Fluid Static’s : Review of Basic concepts &properties of the fluid . Pressure at a point, pressure
variation in static fluid, Absolute and gauge pressure, manometers, Forces on plane and curved
surfaces ; buoyant force, Stability of floating and submerged bodies, Relative equilibrium.
Kinematics of Flow : Types of flow-ideal & real , steady & unsteady, uniform & non-uniform,
one, two and three dimensional flow, path lines, streak-lines, streamlines and stream tubes;
continuity equation for one and three dimensional flow, rotational & irrotational flow,
circulation, stagnation point, separation of flow, sources & sinks, velocity potential, stream
function, flow net & its applications , method of drawing flow nets.
Dynamics of Flow: Euler’s equation of motion along a streamline and derivation of Bernoulli’s
equation, application of Bernoulli’s equation, energy correction factor, linear momentum
equation for steady flow; momentum correction factor. The moment of momentum equation,
forces on fixed and moving vanes and other applications. Fluid Measurements: Velocity
measurement ( Pitot tube, current meters etc.); flow measurement (orifices, nozzles, mouth
pieces, orifice meter, nozzle meter, venturi-meter, weirs and notches).
Dimensional Analysis : Dimensional analysis, dimensional homogeneity, use of Buckingham-pi
theorem, calculation of dimensionless numbers
Introduction to boundary layer, Boundary layer development on a flat plate and its
characteristics - Boundary layer thickness, displacement thickness, momentum thickness, energy
thickness. Momentum equation for boundary layer by Von karman, drag on flat plate, boundary
layer separation and its control. Aerofoil theory, lift and drag coefficients, streamlined and bluff
bodies.
Flow through Pipes : Reynolds experiment & Reynolds number, laminar & turbulent flow,
Introduction to Navier Stokes’ Equation, relation between shear & pressure gradient, laminar
flow through circular pipes, friction factor, laminar flow between parallel plates, hydrodynamic
lubrication.
What is System Engineering, Origin, Examples of Systems requiring systems
engineering,Systems Engineer Career Development Model, Perspectives of Systems
Engineering, Systems Domains, Systems Engineering Fields, SystemEngineering Approaches.
Structure of Complex Systems, System Building Blocks and Interfaces, Hierarchy of Complex
Systems, System Building Blocks, The System Environment, Interfaces and Interactions,
Complexity in Modern Systems.
Concept Development and Exploration, Originating a New System, Operations Analysis,
Functional Analysis, Feasibility, System Operational Requirements, Implementation of Concept
Exploration.
Engineering Development, Reducing Program Risks, Requirements Analysis, Functional
Analysis and Design, Prototype Development as a Risk Mitigation Technique, Development
Testing, Risk Reduction.
Integration and Evaluation, Integrating, Testing, And Evaluating The Total System, Test
Planning And Preparation, System Integration, Developmental System Testing, Operational Test
And Evaluation, Engineering For Production, Transition From Development To Production,
Production Operations.
Drawing conventions; IS codes, sectional views and sectioning, surface finish and tolerances
representation of machine parts such as external and internal threads, slotted heads, square ends,
and flat radial ribs, slotted shaft, splined shafts, bearings, springs, gears, Rivet heads and Riveted
joints, Welded joints, Drawing of Threaded fasteners .
Assembly Drawing : Assembly Machine Drawing ,Basic concept of assembly drawing ,bill of
materials, Assembly drawing of Cotter and Knuckle joints, pedestal and footstep bearings,
Engine parts- crosshead and stuffing box, IC engines parts - piston and connecting rods; lathe
machine parts-Tool post and Tail Stock.
CAD : software and hardware required to produce CAD drawings Software: operating systems;
CAD software packages e g AutoCAD, AutoCAD/Inventor, Micro station, Catia,
Pro/ENGINEER, Solid works; minimum system requirements. Preparing & interpreting CAD
drawing, orthographic projections; Commands: absolute/relative/polar coordinates; features eg
line types, grids, snaps, circle, text, hatching, dimensioning, layers/levels, colour; viewing e g
zoom, pan; inserting other drawings e g symbols, blocks; modifying e g copy, rotate, move,
erase, scale, chamfer, fillet Interpret: determine properties of drawn objects e g list, distance,
area, volume use CAD software to produce 2D & 3D assembly drawings and views
3D environment: 3D views e g top, front, side, isometric 3D models: 3D techniques e g addition
and subtraction of material, extrude, revolve, sweep, 3D coordinate entry (x, y, z), wire frame
drawing, 2D to 3D (thickness, extrusion); surface models; solid
Internal Combustion Engine: S.I. and C.I. engines of two and four stroke cycles, real cycle
analysis of SI and CI engines, determination of engine dimensions, speed, fuel consumption,
output, mean effective pressure, efficiency, factors effecting volumetric efficiency, heat balance,
performance characteristics of SI and CI engines, cylinder arrangement, firing order, power
balance for multi-cylinder engines .
Combustion in SI engines: Flame development and propagation ,Pressure-Crank Angle diagram
, Stages of Combustion ignition lag, effect of air density, temperature, engine speed, turbulence
and ignition timings, physical and chemical aspects , abnormal Combustion , effect of engine and
fuel variables on abnormal combustion , pre-ignition, its causes and remedy, salient features of
various type combustion chambers.
Combustion in C.I. Engines: Times base indicator diagrams and their study, various stages of
combustion, delay period, diesel knock, knock inhibitors, salient features of various types of
combustion chambers .
I.C. Engine System: Fuels, ignition systems, cooling, exhaust/scavenging and lubrication
system. Fuel metering in SI engine: Fuel injection in SI engine (MPFI, TBI,CRDI ), Theory of
carburetion, Solex Carburetor, simple problems on carburetion. Fuel metering in CI engines:
Fuel injection in CI engine ,Working Principle of fuel pump & fuel injectors , types of nozzles ,
simple numerical problems . Cooling & lubrication of SI & CI Engines
Supercharging & Turbo charging : Methods of supercharging,& turbo charging Effects of
super charging and turbo charging . Engine Modifications for supercharging, supercharging of
two stroke engines. micro processor controlled supercharging .
Mechanical Engineering design - Design considerations, Design Procedure Material selection
Modes of failure - Theories of failure , causes of stress concentration; stress concentration in
tension, bending and torsion; reduction of stress concentration, theoretical stress concentration
factor, notch sensitivity, fatigue stress concentration factor, cyclic loading, endurance limit, S-N
Curve, loading factor, size factor, surface factor. Design consideration for fatigue, Goodman and
modified Goodman's diagram, Soderberg equation, Gerber parabola, design for finite life,
cumulative fatigue damage
Design of Fasteners : Design of cotter and knuckle joints.. Fasteners and keys , Design of
welded joints , Fillet and butt welds , Design of riveted joints. Design of bolted joints . Power
screws .
Selection & Design of bearings : Reynold's equation, stable and unstable operation, heat
dissipation and thermal equilibrium, boundary lubrication, dimensionless numbers, Design of
journal bearings, Rolling-element Bearings: Types of rolling contact bearing, bearing friction
and power loss, bearing life; Radial, thrust & axial loads; Static & dynamic load capacities;
Selection of ball and roller bearings; lubrication and sealing.
Design of Springs : Design of helical compression & tension spring , design of leaf spring &
torsion springs , fatigue loading of springs ,surge in springs ,spiral springs .
Fourier Series: Fourier Series for Continuous & Discontinuous Functions, Expansion of odd
and even periodic functions, Half-range Fourier series, Complex form of Fourier Series,
Integral Transforms:
Fourier Transform-Complex Fourier Transform, Fourier Sine and Cosine Transforms,
Applications of Fourier Transform in Solving the Ordinary Differential Equation. Laplace
Transform- Introduction of Laplace Transform, Laplace Transform of elementary Functions,
Properties of Laplace Transform, Change of Scale Property, First and Second Shifting
Properties, Laplace Transform of Derivatives and Integrals. Inverse Laplace Transform & its
Properties, Convolution theorem, Applications of Laplace Transform in solving the Ordinary
Differential Equations.
Functions of Complex Variables: Analytic functions, Harmonic Conjugate, CauchyRiemann
Equations, Line Integral, Cauchy’s Theorem, Cauchy’s Integral Formula, Singular
Points, Poles & Residues, Residue Theorem, Application of Residues theorem for
Evaluation of Real Integrals.
Numerical Solution of Ordinary Differential equations: Picard’s Method, Taylor’s Series,
Euler’s Method, Modified Euler’s Method, Runge-Kutta methods, Milne’s and Adam’s
Bashforth Methods.
EAS - System Engg.
DC - Machine Drwing and CAD
DC - Energy Conversion
DC - Machine Design -1
DE - Mathematics -3
EAS - Computer programming
Hu - NSS / NCC
https://www.rgpv.ac.in/UC/frm_download_file.aspx?Filepath=CDN/PubContent/Scheme/me161116011930.pdf
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