SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY ALL ENGINEERING DEPARTMENT MID SEMESTER ...socet.edu.in/socet/wp-content/uploads/2017/09/SEM-3... · NAME OF SUBJECT: Advanced Engineering

SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY

ALL ENGINEERING DEPARTMENT

MID SEMESTER-II EXAMINATION SYLLABUS

NAME OF SUBJECT: Advanced Engineering Mathematics

SUBJECT CODE: 2130002

SEMESTER: III

PERCENTAGE OF MID SEM EXAM SYLLABUS: 50 %

CH. NO. TOPIC

1

Ordinary Differential Equations and Applications: First order differential

equations: basic concepts, Geometric meaning of y’ = f(x,y) Exact differential

equations, Integrating factor, Linear differential equations, Bernoulli equations,

Orthogonal trajectories of curves. Linear differential equations of second and higher

order: Homogeneous linear differential equations of second order, Euler- Cauchy

Equations, Wronskian, Non homogeneous equations, Solution by undetermined

coefficients, Solution by variation of parametersHigher order linear differential

equations, Higher order homogeneous with constant coefficient, Higher order non

homogeneous equations. Solution by [1/f(D)] r(x) method for finding particular

integral.

2 Series Solution of Differential Equations: Power series method, Theory of power

series methods, Frobenius method.(case 1)

3 Partial Differential Equations and Applications: Formation PDEs, Solution of

Partial Differential equations f(x,y,z,p,q) = 0, Nonlinear PDEs first order, Some

standard forms of nonlinear PDE,

4 Fourier Series Even and odd functions, Half-range Expansion.

Dr Shailja Sharma Dr Poonam Darbar

Subject Coordinators Head,General Dept.


ALL ENGINEERING DEPARTMENT

(D to D)

MID SEMESTER-1I EXAMINATION SYLLABUS

NAME OF SUBJECT: Advanced Engineering Mathematics


SEMESTER: III


CH. NO. TOPIC

1

Ordinary Differential Equations: First order differential equations: basic

concepts, Geometric meaning of y’ = f(x ,y) Exact differential equations,

Integrating factor, Linear differential equations, Bernoulli equations, Linear

differential equations of second and higher order: Homogeneous linear differential

equations of second order, Wronskian , Solution by undetermined coefficients,

Solution by variation of parameters Higher order linear differential equations (CF)

2 Series Solution of Differential Equations: Power series method, Theory of power

series methods

3 Laplace Transforms and Applications: Definition of the Laplace transform, Inverse

Laplace transform, Linearity, Shifting theorem, Convolution and integral equations.

4 Periodic function, Trigonometric series, Fourier series, Functions of any period,

Discontinuous function .Even and odd functions,

Dr Shailja Sharma Dr Poonam Darbar

Subject Coordinators Head, General Dept.


AERONAUTICAL ENGINEERING DEPARTMENT

MID SEMESTER-2EXAMINATION SYLLABUS

NAME OF SUBJECT: ANALYSIS OF MECHANISM AND MACHINE ELEMENTS


SEMESTER: III


Nikhil Borse Prof. M. K. Shah

Subject Coordinator Head, Mech. Engg. Dept.

CH. NO. TOPIC

1 Introduction to Simple Stresses :

Definition, classification, general procedure, physical & mechanical

properties of materials, stress strain diagram, Tensile stress & strain,

compressive stress & strain, shear stress & strain, crushing & bearing

stress, factor of safety, linear & lateral strain, Poission’s ratio,

volumetric strain, impact stress.

2 Riveted and Welded joints –

Riveted joints:

Methods of riveting, types of rivet heads, types of riveted joints, terminology, and

strength of a riveted joint, efficiency of a riveted joint, riveted joints for structural

use.

Welded joints:

Advantages & disadvantages of welded joints over riveted joints, welding

processes, types of welded joints, strength of transverse fillet welded joint, strength

of parallel fillet welded joint, strength of butt joint, stresses on welded joints.

3 Force Analysis:

Static force analysis: Introduction to static force analysis, superposition, principle

of virtual work, Dynamic force analysis: D’Alembert’s principle, dynamic

analysis of slider crank chain, velocity & acceleration of piston, engine force

analysis, inertia of connecting rod.



MID SEMESTER-2 EXAMINATION SYLLABUS

NAME OF SUBJECT: ELECTRICAL MACHINES AND ELECTRONICS


SEMESTER: III

PERCENTAGE OF MID SEM EXAM SYLLABUS: 55%

MIHIR. J. PARIKH Prof. M. K. Shah

Subject Coordinators Head, Mech. Engg. Dept.

CH. NO. TOPIC

1 UNIT-5: ALTERNATOR

Introduction, details, exciters, operation on load, voltage regulation, losses and

efficiency, parallel operation of alternators, synchronization procedure, cooling of

alternators

2 UNIT-6: TRANSFORMERS

General aspects, Basic definition, working principle of transformer, Types of

transformers. Cooling, Oil conservators and breather, 3phase transformers,

Instrument Transformers

3 UNIT-7: SUPPLY SYSTEMS

Electric Power Supply system, typical ac power supply system, comparison of

DC and AC transmission. Advantages of high transmission voltage, comparison

of conductor material in over head systems, underground supply system,

economic choice of transmission voltage.

4 UNIT-8: TARIFF AND POWER FACTOR IMPROVEMENT.

Types of tariff, power factor, importance of power factor improvement, methods,

most economic power factor.

5 UNIT-9: SUBSTATIONS

Classification of substations, comparison between indoor and outdoor substation,

transformer and pole mounted sub stations. Key diagram of 66/11 KV substations,

1100KV/400 Volt indoor substation, Bus bar arrangement.




NAME OF SUBJECT: MECHANICS OF SOLIDS


SEMESTER: III


CH. NO. TOPIC

1 Applications of fundamentals of statics

Statically determinate beams:

Types of loads, Types of supports, Types of beams; Determination of support

reactions, Relationship between loading, shear force & bending moment, Bending

moment and shear force diagrams for beams subjected to only three types of loads

:i) concentrated loads ii) uniformly distributed loads iii) couples and their

combinations; Point of contraflexure, point & magnitude of maximum bending

moment, maximum shear force.

2 Friction

Theory of friction, Types of friction, Static and kinetic friction, Cone of friction,

Angle of repose, Coefficient of friction, Laws of friction, Application of theory of

friction: Friction on inclined plane, ladder friction, wedge friction, belt and rope

friction.

3 Centroid and moment of inertia

Centroid: Centroid of lines, plane areas and volumes, Examples related to centroid

of composite geometry, Pappus – Guldinus first and second theorems.

Moment of inertia of planar cross-sections: Derivation of equation of moment of

inertia of standard lamina using first principle, Parallel & perpendicular axes

theorems, polar moment of inertia, radius of gyration of areas. Examples related to

moment of inertia of composite geometry,

4 Stresses in Beams:

Flexural stresses – Theory of simple bending, Assumptions, derivation of equation

of bending, neutral axis, determination of bending stresses, section modulus of

rectangular & circular (solid & hollow), I,T,Angle, channel sections

Shear stresses – Derivation of formula, shear stress distribution across various beam

sections like rectangular, circular, triangular, I, T, angle sections.

Nikhil Borse Prof. M. K. Shah





NAME OF SUBJECT: AIRCRAFT SCIENCE AND MANUFACTURING PROCESSES


SEMESTER: III


Nimesh Patel Prof. M. K. Shah


CH. NO. TOPIC

1 Fabrication and Repair of Wood Aircraft Structures

Introduction, Aircraft woods, Glues and Gluing procedures, Construction and

repairs of wood structures, Care of aircraft with wood structures, Inspection of

airplanes having wood structures

2 Fabric Covering

Introduction, Fabric types and terminology, Dopes and Finishing Materials,

Facilities and Equipment for Aircraft Covering, Selection for Fabric covering

material, Application of Fabric covers for Aircraft, Fabric Inspection, Repair of

Fabric Covering.

3 Sheet Metal Airframe Construction

Introduction, Design Philosophy, Factors affecting sheet metal parts and joints

design, Fundamentals calculations for structures, Preparation for layout work, Hand

tools for sheet metal work, Floor and Bench machinery for sheet metal work,

Fabrication for sheet metal parts, Riveting, theory of large orifices, Elementary

theory of notches and weirs, flow in a curved path, pressure gradient and change of

total energy across the streamlines.

4 Welded Aircraft Structures and Construction

Introduction, Construction of steel-tube assemblies by welding, Inspections of steel

tube structures, Aircraft tubing repair, Special welding repairs, soldering and

brazing,



MID SEMESTER-2EXAMINATION SYLLABUS

NAME OF SUBJECT: FUNDAMENTALS OF FLUID MECHANICS


SEMESTER: III


CH. NO. TOPIC

1 Static Forces on Surface and Buoyancy

Buoyancy, centre of buoyancy, equilibrium of floating bodies, stability of a

submerged body, stability of floating bodies, determination of the metacentric height,

determination of the position of the metacenter relative to the center of buoyancy,

periodic time of oscillation.

2 Motion of Fluid Particles and Streams

Fluid flow, different types of flow, Speed of sound, Mach number, Types of flow

based on Mach number, Area-Velocity Relation, Characteristics of diff. types of flow

(Laminar & Turbulent Flows), expression for coefficient of friction,

DarchyWeichback equation, Applications of Turbulent Flow, frames of reference,

real and ideal fluids, analysing fluid flow, motion of a fluid particle, acceleration of

a fluid particle, discharge and mean velocity, continuity of flow, continuity equations

for 2-D and 3-D flow in Cartesian coordinates of system.

3 The Energy Equation and its Application

Momentum and fluid flow, Momentum equation for 2-D and 3-D flow along a

stream line, momentum correction factor, Euler’s equation of motion along a stream

line, Mechanical energy of a flowing fluid – Bernoulli’s theorem, kinetic energy

correction factor, pitot tube, determination of volumetric flow rate via pitot tube,

changes of pressure in tapering pipe, principle of venture meter, pipe orifices,

Limitation on the velocity of flow in a pipeline, theory of small orifices discharging

to atmosphere, theory of large orifices, Elementary theory of notches and weirs, flow

in a curved path, pressure gradient and change of total energy across the streamlines.

4 Dimensional Analysis and Similarities

Dimensional analysis, dimensions and units, dimension reasoning, dimensional

quantities, Fundamental and derived units and dimensions, dimensions of derivative

and integrals, use of dimensional reasoning to check calculations, units of derived

quantities, conversion from one system of unit to another, conversion of dimensional

constants, dimensional homogeneity, dimensional analysis using the indicial method-

Rayleigh’s method, dimensional analysis using group method-Buckingham

πtheorem, significance of dimensionless group, use of dimensionless groups in

Experimental investigation, geometric similarity, dynamic similarity, Kinematic

similarity, Model testing-Model laws, Undistorted and Distorted models. .

Nimesh Patel Prof. M. K. Shah


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SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY ALL ENGINEERING DEPARTMENT MID SEMESTER ...socet.edu.in/socet/wp-content/uploads/2017/09/SEM-3... · NAME OF SUBJECT: Advanced Engineering