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8/13/2019 Srtmu Fe Syllabus
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Swami Ramanand Teerth Marathwada University, Nanded
First Year Engineering
Revised Syllabus
For Group-I
(Revision 2008)
S.No.
Subject Theoryper
Week
Tutorial / Practical
Theory Test TermWork
Total
Part I1. Engineering Mathematics-I 4 1 80 20 -- 100
2. Engineering Physics 4 2 80 20 25 125
3. Engineering Drawing 4 4 80 20 50 150
4. Elements of Electrical
Engineering
4 2 80 20 25 125
5. Elements of Civil &Environmental Engineering
4 2 80 20 25 125
6. Workshop -- 04 -- -- 50 50
Total 20 15 400 100 175 675
Part-II1 Engineering Mathematics-II 04 01 80 20 -- 100
2. Engineering Chemistry 04 02 80 20 25 125
3. Engineering Mechanics 04 02 80 20 25 125
4 Elements of MechanicalEngineering
04 02 80 20 25 125
5. Fundamentals of ComputerProgramming
04 02 80 20 25 125
6. Basic ElectronicsEngineering
04 02 80 20 25 125
Total 24 11 480 120 125 725
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Swami Ramanand Teerth Marathwada University, Nanded
First Year Engineering
Revised Syllabus
For Group-II
(Revision 2008)
S.No.
Subject Theoryper
Week
Tutorial / Practical
Theory Test TermWork
Total
Part I1. Engineering Mathematics-I 4 1 80 20 -- 100
2. Engineering Chemistry 4 2 80 20 25 125
3. Engineering Drawing 4 4 80 20 50 1504. Fundamentals of Computer
Programming
4 2 80 20 25 125
5. Elements of Civil &Environmental Engineering
4 2 80 20 25 125
6. Workshop -- 04 -- -- 50 50
Total 20 15 400 100 175 675
Part-II1 Engineering Mathematics-II 04 01 80 20 -- 100
2. Engineering Physics 04 02 80 20 25 125
3. Engineering Mechanics 04 02 80 20 25 125
4 Elements of MechanicalEngineering
04 02 80 20 25 125
5. Elements of ElectricalEngineering
04 02 80 20 25 125
6. Basic Electronics
Engineering
04 02 80 20 25 125
Total 24 11 480 120 125 725
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Swami Ramanand Teerth Marathwada University, NandedRevised Syllabus 2008
For First Year Engineering
ENGINEERING MATHEMATICS-I
F.E. SEMESTER I
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marks
_____________________________Total . . . . . . . . . . . . . . 100 marks
Theory - 4 hrs / weekTutorials - 1 hrs / week
UNIT 1 ALGEBRA OF COMPLEX NUMBERS : 07 hrs.
1.1 Introduction to complex numbers1.2 De-Moivres Theorem and Applications1.3 Circular and hyperbolic functions, formulae of hyperbolic functions1.4 Inverse hyperbolic functions.1.5. Separations of real and imaginary parts of sin z ; cos z ; tan z and their inverses.1.6 Logarithmic functions of complex variables, general and principle values
UNIT 2 MATRIX ALGEBRA 06 hrs.
2.1 Reduction of matrix to Echelon and normal forms, Rank of Matrix.
2.2. Applications to test of consistency of simultaneous equations and its solution.2.3 Eigen Values and corresponding Eigen vectors.2.4 Caley Hamilton theorem.
UNIT 3 SUCCESSIVE DIFFERENTIATION AND MEAN 07 hrs.VALUE THEOREMS :
3.1 Successive differentiation and3.2 nth. Order derivatives of some standard functions3.3 Leibnitzs theorem and applications3.4 Rolls theorem and Lagranges mean value theorem
UNIT 4 POWER SERIES EXPANSION 07 hrs.
4.1 Meclaurians theorem4.2 Taylors theorem4.3 Series expansion functions4.4 Indeterminate form of limits
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UNIT 5 FUNCTIONS OF SEVERAL VARIABLES AND PARTIAL 08 hrs.DIFFERENTIATION :
5.1 Introduction to Functions of two and more variables5.2 Partial differential coefficient of first and second orders
5.3 Homogeneous function, Eulers theorem for homogeneous functions.5.4 Change of independent variables5.5 Maximum and Minimum values of functions of two or more variables.
UNIT 6 JACOBIANS AND ITS APPLICATION 05 hrs.
6.1 Jacobians and its properties6.2 Jacobians of implicit function6.3 Partial derivatives of implicit function by use of Jacobeans6.4 Application of Jacobians for the test of function dependency.
TEXT BOOKS :1. Advanced Engineering Mathematics (Second Edition) Pub. Narosa
Publication House : by R.K. Jain and S.R. K. Iyengar2. Advanced Engineering Mathematics (7 th Edition ), by Eriwin Kreyszing3. Higher Engineering Mathematics by B.V. Ramana.
REFERENCE BOOKS :
1. Applied Mathematics (Vidyarthigrah Publication) Vol. 1 & 2, by J.N. Wartikar and P.N. Wartikar
2. Calculus (Ninth Edition ), Pearson Publication by George B. Thomas and Ross L. Finney
3. Higher Engineering Mathematics by Dr. B.S. Grewal4. Advanced Engg. Mathematics by H.K. Das5. Engg Mathematics Vol.1 & 2, by S.S. Shastri
MEMBERS OF BOARD STUDIES
1. Shri D.R. Biradar (Chairman)2. Shri. R.M. Lokhande (Member)3. Shri M.R. Pawde (Member)4. Dr. P.T. Patil (Invited Member)
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APPLIED PHYSICS
F.E. SEMESTER I
Theory paper . . . . . . . . 80 marks
Test . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks ____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
Objective:By studying Applied Physics, students will able to know ; how the Physics
concepts are applied in the different branches of engineering.The subject syllabus highlights all required basic terms used for all branches of
engineering like electronics, telecom, civil and mechanical
UNIT -I1.1 THE ELECTRON (4 Hrs)Motion of charged particles in electric and magnetic fields, Determination of charge tomass ratio of electron, Determination of charge of electron, Positive ray analysis,Determination of charge to mass ratio of positive rays by Thomsons parabola method.
1.2 ELECTRON OPTICS (3 Hrs)Applications of electron beam in CRO , Construction, Action and applications(study of
wave forms, measurement of DC & AC voltage, measurement of frequency and phasedifference on CRO), Electron microscope and its engineering applications.
1.3 ACOUSTICS (3 Hrs)Basic requirements for the acoustically good hall, reverberation and time ofreverberation, Sabins formula for reverberation time, absorption coefficient and itsmeasurement, factors affecting the architectural acoustics and their remedy, soundabsorbing materials.
UNIT - II 2.1 ATOMIC STRUCTURE (3 Hrs)
Drawbacks of Bohrs theory, explanation of fine structure of H by Sommer field theory,Vector atom model, Zeeman effect.
2.2 NUCLEAR PHYSICS (3 Hrs)Binding energy curve, Q value of nuclear reaction, nuclear fission in natural uranium,chain reaction, nuclear fusion.
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2.3 ULTRASONIC (2 Hrs)Ultrasonic waves, production of ultrasonic waves by piezo electric oscillators andmagneto stiction method ( Echo signaling and flaw detection ), applications of ultrasonicwaves.
Unit - III3.1 INTERFERENCE (5 Hrs)Interference in thin films, film with uniform thickness and varying thickness (wedgeshaped thin films), Newtons ring theory and engineering applications (testing of opticalflatness, testing of lens surface, refractive index of liquid, coefficient of expansion ofcrystal, measurement of mechanical gauge)
3.2 DIFFRACTION (4 Hrs)Fraunhoffers diffraction at a single slit, condition for maxima and minima, planetransmission gratting, resolving power of telescope, Braggs law and Braggs X-Rayspectrometer and determination of crystal structure.
Unit- IV 4.1 WAVE NATURE OF MATTER (3 Hrs)Wave and particle duality of radiation, De-Broglies concept of matter waves, De-Broglies wave length, Davission and Germers experiment of electron diffraction,Heisenbergs uncertainty principle. Experimental illustration of uncertainty principle.Physical significance of wave function ( ).
Unit- V5.1 MAGNETISM AND SUPERCONDUCTIVITY (5 Hrs)introduction to magnetism B,H,I,X and , Ferrites and antiferrites, introduction to superconductors, properties ( 0 resistance, Messner effect, critical fields) type-1 and type-2super conductors, critical currents, BCS theory, isotope effect,applications(superconducting magnets, transmission lines etc.)
5.2 POLARIZATION (4 Hrs)Plane polarized light, plane of vibration, plane of polarization, production of PPL i. byreflection, Brewsters law ii. Refraction by piles of glass plates and double refraction,
Nicol prism, optic axis and principle plane, difference between ordinary and extraordinary rays, positive and negative crystal, quarter and half wave plates.
Unit-VI6.1 LASER (3 Hrs)Ordinary light Vs laser light, spontaneous emission Vs Stimulated emission, populationinversion, metastable state, active medium, pumping mechanism, ruby laser, He-Ne laser,semiconductor laser, applications of laser in industry and medicine.
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6.2 FIBER OPTICS (3 Hrs)Total internal reflection, construction of optical fibers, acceptance angle and acceptancecone, fractional refractive index change, numerical aperture, material, applications insensor and telecommunication, advantages of optical fiber over conducting wires.
TERM-WORK:Any ten experiments1. Effect of magnetic field on electron beam.2. Determination of e/m by Thomsons method.3. Newton ring experiment (Determination of radius of curvature and refractive
index of liquid)4. Study of Front panel of CRO.5. Measurement of frequency and voltage using CRO.6. Measurement of wavelength of light using plane transmission grating.7. Specific rotation of sugar solution using polarimeter.
8. P-n junction diode characteristics.9. Zener diode characteristics.10. Transistor characteristics CE and CB mode.11. Study of optical fibers.12. Characteristics of photo cell/ photo diode.13. Polarization by reflection.14. Experiment based on laser.
Text Book s:1. Applied Science -Sane and Sonkamble
-Shelke and Dr. SahujiReference Books:1. Modern physics -J.B. Rajam2. Optics -Brijlal and Subramanyam3. Optics -Mathur4. Engineering physics -Gaur and Gupta5. Fiber optics -Cherins
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ENGINEERING DRAWING
F.E. SEMESTER I
Theory paper . . . . . . . . 80 marks
Test . . . . . . . . . . . . . . . 20 marksTerm Work 50 marks ____________________________Total . . . . . . . . . . . . . . 150 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
OBJECTIVES :1 To know the fundamental principles of geometric and machine drawing.2 To visualize the various machine components.
UNIT I: (8 Hrs)Introduction: Concept of reference planes and quadrants, orthographic drawing and alliedconcepts, Scaling, Sheet Layout, Projection Systems, drawing instruments, types of lines)
Projection of Points & Lines : Projections of points in four quadrants. Projection of linesinclined to both the planes, Traces of line, use of traces in obtaining projections. Findingtrue length and true inclination etc.
UNIT II: (6 Hrs)Projections of Planes: Projection of planes inclined to both ref. planes, (regular &composite planes)
UNIT III: (6 Hrs)Projections of Solids: Introduction of solids (Prisms, pyramids, cylinders, cone, cube,tetrahedron), Projection of right, regular solids with axis inclined to both the reference
planes.
UNIT IV: (8 Hrs)Orthographic Projections: Conversion of pictorial views in to orthographic views anddrawing sectional views (full section, half section, offset section)
UNIT V: (7 Hrs)
Isometric Projections: Introduction to pictorial views, Conversion of orthographic viewsin to Isometric projections/ views. (Isometric and non isometric planes)
UNIT VI: (5 Hrs)Missing Views: Orthographic reading, adding the missing view and missing lines in thegiven orthographic projections.
Note: Only First angle method of projections to be used.
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TERM WORK:a. At least one sheet containing minimum four problems on each unit.
b. A sketch book containing solution of assignments on each unit.
TEXT BOOKS:1. Elementary Engineering Drawing, N. D. Bhatt, V. M. Panchal- CharotarPublication, Anand
2. Engineering Drawing, P. J. Shah C. Jamanadas Publication3. Engineering Graphics, M. L. Dabhade- Scitech Publication, Pune
Reference books:1. Machine Drawing, N.D. Bhatt, V. M. Panchal- Charotar Publication, Anand2. Fundamentals of Engineering Drawing, Warren Luzzader- Prentice Hall3. Machine Drawing, S. Bogolyubov- Mir Publishers, Moscow.
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ELEMENTS OF ELECTRICAL ENGINEERING
APPLIED PHYSICS
F.E. SEMESTER I
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks
____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
OBJECTIVES: - Objective of this subject is to To understand the importance of Electrical energy in day to day life.
To understand importance of basic concepts of Electrical engineering, differenttheorems & different machines used in industries. To gain knowledge of solving numerical problems related to electrical circuits .
UNIT I. GENERAL (4 Hrs)Revision of concepts of EMF, P.D. & Current, Ohm's law, resistance. Insulationresistance & Effect of temperature on resistance, Resistance Temperature coefficient.Fundamental concept of work, power, energy. Capacitance & their series, Parallelcombination.
UNIT II. D.C.CIRCUIT ANALYSIS (9 Hrs)Simplification of network using series & parallel combination of resistances & Star-Deltaconversions. Different types of sources, source conversion technique. KCL, KVL, Loop& Nodal analysis. Superposition Theorem, & Thevenins Theorem.
UNIT III. MAGNETIC CIRCUITS (9 Hrs)Magnetic effect of Electric current, concepts of M.M.F., flux, flux density, reluctance,
permeability, field strength & their relationship. Concepts of leakage & fringing.Computation of M.M.F. in simple series & parallel magnetic circuits. Comparison ofelectric & magnetic circuit. Concept of induced E.M.F., dynamically induced e.m.f. &statically induced e.m.f., self & mutually induced E.M.F., self inductance & mutualinductance, coefficient of coupling. Combination of Inductances in series & parallel.
UNIT IV. A.C. FUNDAMENTALS (SINGLE PHASE) (11 Hrs)Sinusoidal voltage & currents, their mathematical & graphical representation, concepts ofinstantaneous, peak, average & R.M.S. values, frequency, cycle, period, peak factor, formfactor, phase & Phase difference. Rectangular & polar representation of phasors.Study of A.C. through Pure Resistance, Pure Inductance, Pure Capacitance &corresponding voltage -current phasor diagram. Study of A.C. through series & parallelcombination consists of R-L, R-C, R-L-C. Concept of impedance, admittance,
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conductance & susceptance. Concepts of active power, rective power & apparent power.Resonance in series & parallel A.C. Circuits.
UNIT V. THREE PHASE A.C.CIRCUITS (POLYPHASE) (3 Hrs)Concepts of 3-phase supply & phase sequence, Voltage, current relationship in 3-phase
balanced STAR connected & DELTA connected load with phasor diagram. DifferentPower equations.
UNIT VI. ELECTRICAL MACHINES (08Hrs)TRANSFORMER (SINGLE PHASE)Construction, Principle of working, E.M.F. equation, transformation ratio, concept ofIdeal Transformer. Losses, definition of regulation & Efficiency, determination of these
by direct loading.ROTATING MACHINESConstruction & working principle of D.C. Machine as D.C.Generator & D.C.Motor &A.C. Machine (Induction motor).
OUTCOMES: By the end of the course students will able To understand the interrelationship between Electrical parameter & their
dependency. To convert complicated into a simpler one. To understand the concept of Active, Reactive & Apperent power in an electrical
circuit. To gain knowledge about safety & electrical hazards.
TERM WORK: The term work for the subject consists of report on the performance ofany EIGHT experiments from the following
1. Determination of energy efficiency of water heating system.2. Verification of Ohm's Law.3. Verification of KCL & KVL.4. Verification of Superposition theorem.5. Verification of Thevenins Theorem.6. Determination of Performance of R-L series circuit.7. Determination of Performance of R-C series circuit.8. Determination of Performance of R-L-C series circuit9. Verification of Voltage & current relationship in balanced 3-phase STAR
connected load.10. Verification of Voltage & current relationship in balanced 3-phase DELTA
connected load.11. Determination of efficiency & regulation of a single phase Transformer byDirect Loading.
12. Study D.C. Machines (Generator & Motor).13. Study of A.C. Machines (Induction Motor).
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REFERENCE BOOKS: Electrical Technology, H.Cotton, CBS PublicationPrinciples of Electrical Engineering, Vincent Del Toro, IInd edition, Prentice Hall ofIndia, private Ltd.
TEXT BOOKS:Basic Electrical Engineering, I.J.Nagrath & D.P.Kothari.Basic Electrical Engineering, V.N.MittalPrinciples of Electrical Engineering, V.K.Mehta & Rohit Mehta.Electrical Technology, Vol-I, B.L.Theraja.Electrical Technology, Vol-II, B.L.Theraja.Electrical Machines, I.J.Nagrath & D.P.KothariElectrical Engineering, Edward Huges & Longman, 7 th edition.Principles of Electrical Machines, V.K.Mehta.Committee Members:-
1. Mrs. Tawani L.G.2. Mr. Adkine G.U.3. Mr. C.Pattanaik4. Mr. Kotgire S.L5. Mr. Suresh Hallali.6. Dr.Mr. Joshi Y.V.
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Elements of Civil & Environmental Engineering
F.E. SEMESTER I
Theory paper . . . . . . . . 80 marks
Test . . . . . . . . . . . . . . . 20 marksTerm work. . . . . . . . . 25 marks _____________________________
Total . . . . . . . . . . . . . . 125 marksTheory - 4 hrs / week
Practical - 2 hrs / week
Aim:The aim of introducing the subject Elements Of Civil & Environmental
Engineering is to make them understand the basic concepts of Civil Engg. And necessityof protecting environment and improvement of environment quality for the well being of
man kind.
Objective:At the end of the course the students should be able to understand the role of civil
engineer in the field of civil engineering and other streams of Engineering and also howto provide a safe and maximum comfortable living for the human beings by usingdifferent type of construction techniques and materials.
Study of surveying helps in preparing maps which is essential for the execution ofany project. Leveling helps to find out relative height of ground and other distinctfeatures like roads, railway lines, rivers, canals, etc. Study of Earth quake helps tounderstand precautions to be taken to minimize the loss of life and property. Study of
Environmental Engineering helps in understanding adverse effects due to air, water, noiseand land pollution caused by the human beings & measures to be adopted to conserve the Natural Resources which helps to improve the quality of environment for the well beingof man kind.
CONTETENTS
UNIT - 01 (6 Hrs)
1.1 Introduction to civil engineeringa) Role of Civil Engineer in the field of ,
1) Surveying2) Construction3) Transportation4) Irrigation5) Environmental Engineering.
b) Role of Civil Engineer in other streams of engineeringi.e. Mechanical, Electrical, Electronics, Computer Science, InformationTechnology etc.
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1.2 Building MaterialsTypes, Requirements, Properties and Uses of .Bricks, Sand, Stones, Cement, Timber, Steel, Mortar, Concrete
UNIT 02 (7Hrs)
2.1 Building constructionTypes of Structure:-Load bearing and framed structures, Composite structures
2.2 Study of Building components:-Definition, types, suitability and requirements of :-
a) Foundation(Classification & spread footing only)
b) MasonryTerms used in masonry, English bond, Flemish bond, Points to be observed whilesupervising the brick and stone work,
Coursed and Un-coursed rubble masonry.c) Doors and Windows,d) Floors,e) Lintel,f) Stairs,g) Roofs (R.C.C. flat slab, lean to roof, King post and Queen post roof,
Roofing materials)
Unit 03 (7 Hrs)3.1 Surveying :Definition, Classification, Linear measurements (Metric Chain, Metallic taps, Chaining,Ranging, Off setting)Angular measurements (bearings, meridians, study of Prismatic Compass and SurveyorsCompass, measurement of bearings)
3.2 Leveling :Definition, terminology, study of Dumpy levels, Process of simple and differentialleveling and numericals based on it.
Unit 04 (7 Hrs)4.1 Earth quake :Definition, Technical terms (focus, epicenter, magnitude intensity etc.)Measurements, Causes, Effects, Precautions to minimize loss of lives, general designconsiderations for construction of building in seismic zone.
4.2 Water resource management :Hydrological cycle, water conservation (Rain water harvesting, Roof top harvesting,water shed development and management)
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Unit 05 (8 Hrs)5.1 Environmental Engineering:
Definition: Environment, Ecology.1) Air pollution: Sources, Causes, effects and remedial measures.2) Water pollution: Definition, Sources, Causes, effects and remedial measures,
water quality standards, water treatment process.3) Noise Pollution: Definition, Sources, Causes, effects and remedial measures,Requirements of good acoustical conditions.
4) Land pollution: Definition, Sources, Causes, effects and remedial measures, wasteland managements.
Unit 06 (6 Hrs)6.1 Protection of Environment :-
Environmental education and awareness, conservation of natural resources,legislations and acts :-
1) The Water (prevention and control of pollution) Act 1974.
2) The Air (prevention and control of pollution) Act 1981.3) The Wild Life Protection Act 1972.4) The Indian Forest (conservation) Act 1927.5) The Environmental Protection Act 1986.6) The Motor Vehicle Act 1988.
(Note :- Knowledge of :- salient features, objectives and, powers for violating variousacts are desirable.)
List of experiments:1) Chaining and Ranging.2) Measurement of bearings using Prismatic Compass.3) Measurements of R.LS of given points using Dumpy Level.4) Visit to building construction site for the study of various building components.
ANDDrawing of sketches on quarter part of sheets: - (Any four from the followings)5) Foundation - - - - - - - - - - 2 nos.6) Masonry - - - - - - - - - - - -2 nos.7) Doors and Windows - - - -2 nos.8) Stairs - - - - --- -- - - - - - - 2 nos.9) Lintel and Floor- - - - - - - 1 no.10) Roof - - - - - - - - - - - - - - 1 no.11) Flow diagrams of conventional Water and Waste Water treatments.
References:1) Building Design and Drawing .. By Kale & Patki. (Tata-McGgaw Hill
publication).2) Introduction to Surveying .. By Anderson (McGgaw Hill international )3) Elementary Seismology By Ritcher C. F.4) Water Resource Engineering .. By Garg S. K.
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5) Environmental Engineering and Management . By Dhaneja.
Text Books:1) Building Materials .............. By Rangwala.2) Building Construction . By Punmia B. C.
3) Surveying I & II. By Punmia B. C.4) Hydrology and Water Resource Engineering . By Garg S. K.5) Water Supply and Sanitary Engineering By Birdie.6) Acts Published By
The Director,Government Printing Stationary & Publications,Maharashtra, Mumbai.
7) Environmental pollution Control Engineering .. By Rao C. S.8) Environmental Engineering Vol. II By Garg S. K.
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WORKSHOPF.E. SEMESTER I
Term Work 50 marks ____________________________
Total . . . . . . . . . . . . . . 50 marksPractical - 4 hrs / week
Objective :Students should know the basic manufacturing processes, engineering materials,
use of hand and power tools, common measurement tools.
UNIT 1 CARPENTRY 12 hrs.
1. Workshop Diary recording the following contentsa) Study of timber, classification, defects, seasoning and preservation
b) Study of carpentry tools, uses, care & maintenancec) Study of carpentry joints and operationsd) Study of wood turning lathe
2. Practical:Simplex exercise involving planning, sawing, chiseling, formation of a carpentry
joint (one job)Demonstration : Wood turning operation
UNIT 2 TIN SMITHY 8 hrs.1. Workshop diary : Sheet metal working tools and their use, Various joints in sheet
metal working.
2. Practical : A job involving development of surface, marking, cutting, bending andformation of joints (any one type)
UNIT 3 STUDY AND DEMONSTRATION OF SOLDERING / BRAZINGOPERATION 4 hrs.
UNIT 4 FITTING : 12 hrs.1. Workshop diary : Study o fitting tools, operations and joints2. Simple exercise involving marking, sawing, drilling and tapping operation
(One Job with Male Female Joint)
UNIT 5 PLUMBING 8 hrs.1. Workshop diary : Plumbing tools and uses, Standard accessories used for
plumbing2. Thread cutting on G.I. pipes and preparation of pipe joint
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UNIT 6 WELDING : 6 hrs.1. Study of electric arc welding tools and equipments, welding joints.2. Demonstration of Arc welding (Minimum two joints from lap, butt, T joints)
RECOMMENDED BOOKS :1 Elements of workshop technology, Vol. 1, by Hajra Choudhary2. Basic Production Processes, Prepared by T.T.T.I. , Madras
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ENGINEERING MATHEMATICS-II
F.E. SEMESTER II
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marks ____________________________Total . . . . . . . . . . . . . . 100 marks
Theory - 4 hrs / weekTutorial- 1 hrs / week
UNIT 1 CURVE TRACING : (5 hrs.)1.1 Introduction1.2 Curve tracing in Cartesian form.1.3 Curve tracing in Polar form
1.4 Special curves (Asteroid, Cycloid and Catenaries)
UNIT 2 MEASUREMENT OF LENGTH OF ARC: (5 hrs.)2.1 Measurements of Lengths of arc of Curves in Cartesian Coordinates2.2 Measurement of Lengths of arc of Curves in Polar Coordinates2.3 Intrinsic Equations of Curves
UNIT 3 MULTIPLE INTEGRALS : (10 hrs.)3.1 Gamma and Beta Functions3.2 Double Integral in Cartesian and Polar Coordinates3.3 Change of Order of Integration
3.4 Applications of Multiple Integrals to Volume and Surface area of Solidof Revolution
UNIT 4 TRIPLE INTEGRALS AND APPLICATIONS : (4 hrs.)4.1 Triple Integrals in Cartesian coordinates4.2 Triple Integrals in Spherical polar coordinates
UNIT 5 DIFFERENTIAL EQUATIONS OF FIRST ORDER AND (08 hrs.)FIRST DEGREE :
5.1 Introduction5.2 Exact differential equations and equations reducible to Exact forms
5.3 Linear differential Equations and equations reducible to Linear forms5.4 Solution by Substitution Methods5.5 Applications to Family of Orthogonal Trajectories, electrical circuits and
Resisted Motions
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UNIT 6 INFINITE SEQUENCES AND SERIES: (8 hrs.)6.1 Limits of Sequences6.2 Theorems on calculating limits of sequences6.3 Infinite Series6.4 Integral test for series of non negative terms
6.5 Comparison tests for series of non negative terms6.6 The Ratio and Root tests for series of non negative terms6.7 Alternating Series, Absolute and conditional convergence.
TEXT BOOKS :1. Calculus (Ninth Edition), Pub. Pearson Publication by George B.Thomas
and Ross L. Finney2. Advanced Engineering Mathematics (Second Edition) Pub. Narosa
Publication House : by R.K. Jain and S.R. K. Iyengar3. Advanced Engineering Mathematics (7 th Edition ), by Eriwin Kreyszing
REFERENCE BOOKS :1. Higher Engineering Mathematics by Dr. B.S. Grewal2. Applied Mathematics (Vidyarthigrah Publication) Vol. 1 & 2,
by J.N. Wartikar and P.N. Wartikar3. Higher Engineering Mathematics by B.V. Ramana4. Advanced Engg. Mathematics by H.K. Das5. Engg Mathematics Vol.1 & 2, by S.S. Shastri
MEMBERS OF BOARD STUDIES1. Shri D.R. Biradar (Chairman)4. Dr. P.T. Patil (Invited Member)2. Shri. R.M. Lokhande (Member)3. Shri M.R. Pawde (Member)
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APPLIED CHEMISTRY
F.E. SEMESTER II
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks
____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
Course Objectives
1. To develop analytical ability.2. To integrate pure chemistry principles with Engg. applications3. To understand the chemistry behind the development of engineering materials.
Unit-I Fuel (10 Hrs)Introduction; Classification of chemical fuels; Characteristics of good fuels;Determination of calorific value of solid, liquid & gaseous fuels by(a) Bomb Calorimeter (b) Boys calorimeter.Solid fuels: analysis of Coal:- (a) Proximate Analysis (b) Ultimate Analysis,(c) Carbonization of CoalLiquid Fuels: (a) Cetane number of Diesel and Octane number of Petrol; (b) Green orEco-friendly Fuels: Power Alcohol, Bio-diesel, Hydrogen gas as fuel.Gaseous Fuels: Composition, Properties & Uses of Natural gas, LPG, LNG, CNG &
Rocket PropellantsCombustion of fuels Theoretical oxygen and requirement, Numerical .Unit-II Analytical Chemistry (10 Hrs)Introduction; Types of analysis: quantitative and qualitative analysis;Chromatographic methods: Principle, working and applications of paper, thin layer andcolumn chromatography, Introduction to GC and HPLC;Spectroscopic techniques: Electro magnetic radiations: its characteristics and interactionwith matter. Principle, working and applications of UV- visible and IR spectroscopy.
Unit-III Corrosion and Lubricants (05 Hrs)
A) Corrosion: Introduction, Types of corrosion: Galvanic, Differential, Aeration Dry andwet corrosion: Mechanism, Factors affecting rate of corrosion: Nature of metal, Nature ofenvironment, Method of prevention of corrosion anodic & cathodic protection.
Unit IV Lubricants (05 Hrs)B) Lubricants: Introduction to Lubricants & Lubrication Function of Lubricant;Mechanisms of lubrication: Boundary, Thick film and Extreme pressure lubrication;
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Classification of lubricants with examples; Criteria for selection of lubricant under givenoperating conditions.
Unit V Specialty Polymers (06 Hrs)Materials
Introduction and various examples;1. PolymersIntroduction, Classification with suitable examples, Techniques of polymerization,
2 PlasticsThermoplastics and thermosetting, Rubber: Introduction, Advantages ofvulcanized rubber over natural rubber, structure & properties
3. Specialty PolymersBiodegradable, Thermally Stable, Liquid crystal & Conducting polymer.
Unit VI Smart Materials (04 Hrs)Smart MaterialsDefinition, some examples of smart materials and its mechanism Piezoelectric materials:Introduction, Piezoelectricity, properties and applications.
Text Books1. Jain and Jain Engineering Chemistry. (Dhanpat Rai Piblishing Company), 14th
edn., 20042. S.K.Singh, Fundamentals of Engineering Chemistry (Theory and Practice). (New
Age International Publishers), 2nd edn, 2003
Reference Books1. A.K. De, Environmental Chemistry; John Wiley & sons. Inc. 8th edn 1999.2. Gray D.Christian, Analytical chemistry, John wiley & sons. Inc. 6th edn2003.
List of Practicals (Any eighth of the following)1. Estimation of moisture, volatile matter and ash content in a given sample of coal2. Synthesis of bio-diesel and its characterization3. Separation and identification of components of mixture by paper chromatography4. Separation of mixture of ortho and para nitro aniline by column chromatography5. Separation of mixture of organic compounds by TLC6. Study of Beer-Lamberts law and its application to spectrophotometric analysis
7. Study of corrosion of metal in medium of different pH & current measurement8. Determination of Aniline point of given oil.9. Preparation of Phenol/ Urea Formaldehyde10. To determine molecular weight of polymer
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Outcome : By the end of the course students should be able to carryout proximate analysis of fuel, to obtain the chromatogram of certaincompounds, e.g.O&o nitro aniline, and also be able to separate them from mixture, tosynthesize Bio- diesel, effect of environment on corrosion of metal and selection of
lubricant for a given system.
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ENGINEERING MECHANICS
F.E. SEMESTER II
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks
____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
AIM : Basic concepts of Mechanics for Static and Dynamics have to be implanted intothe student.
OBJECTIVE : At the end of this course the student should be able to understand, staticequilibrium of particles and rigid bodies in two dimensions. Further, he shouldunderstand the principle of work and energy. He should be able to comprehend the effectof friction on equilibrium. He should be able to understand the laws of motion, thekinematics of motion and the interrelationship. He should also be able to write thedynamic equilibrium equation. All these should be achieved both conceptually andthrough solved examples.)
UNIT 1 : System of Coplanar Forces: (8 Hrs)Resultant of concurrent forces, parallel forces and non parallel non concurrent system offorces, moment of force about any point, couples, Varignons theorem, distributed forcesin plane.
1.1: Equilibrium of system of coplanar forces: Conditions of equilibrium forconcurrent, parallel and non concurrent, non parallel system of forces and couples. typesof supports, determination of reactions at supports for various types of structures.
UNIT 2: Centroids and Moment of Inertia: (08Hrs)Center of gravity of wires bent into different shapes, moment of inertia of plane areas.
2.1: Analysis of pin jointed plane trusses: Perfect trusses ,method of joints, method ofsections. (Members not more than 10)
UNIT 3 : Friction : (6 Hrs)Laws of friction, cone of friction, equilibrium of bodies on an inclined plane, applicationto problems involving wedges, ladders.
3.1 : Graphic Statics :Bows notation, force polygon, funicular polygon, Maxwell diagram, problems involving
beam reactions, determination of forces in trusses.
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UNIT 4 : Kinematics of a particle : (6 Hrs)Velocity and acceleration in terms of rectangular co-ordinate system. Rectilinear motion,motion along plane curved path., tangential & normal components of acceleration,acceleration-time, velocity-time graphs and their uses, projectile motion
4.1: Kinematics of rigid bodies : (4 Hrs)Translation, pure rotation & plane motion of rigid bodies, instantaneous centre of rotationfor the velocity & velocity diagrams for bodies in plane motion, acceleration in planemotion, relative velocities.
UNIT 5 : Kinetics of particles and kinetics of rigid bodies: (5 Hrs)DAlemberts principle, equation of dynamic equilibrium, linear motion, curvilinearmotion, mass moment of inertia about centroidal axis & about any other axis.DAlemberts principle for bodies under the motion of rotation about a fixed axis and
plane motion. Application to motion of connected bodies.
UNIT 6: Momentum and Energy principles: (04 Hrs)Linear momentum, principle of conservation of momentum, work done by a force. Workenergy equation, principle of conservation of energy, potential and kinetic energy &
power, impact of solid bodies, elastic impact, semi elastic and plastic impact.
6.1 : Belt Friction: ( 3 Hrs)Transmission of power by belts and ropes, centrifugal and initial tension in the belts orropes. Condition for maximum power transmission. Flat belts on flat pulleys & ropes ongrooved pulleys
Term WorkTerm work shall consist of record of laboratory/ practical work as listed below
A) Any one experiment from1. Verification of law of polygon of forces2. Moment of inertia of flywheel3. Belt friction
B) Graphical solutions1. Non-concurrent four system- One problem with resultant as a force and one problem
with resultant as a couple2. Equilibrium of non-concurrent force system- one problem3. Friction- wedge and block one problem4. Analysis of plane trusses two problems
C) Study of the following machines :1. Single purchase crab or spur gear pulley block2. Different axle and wheel of differential pulley block3. Worm and worm wheel4. Screw Jack
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Assignments :Analytical solution of at least twelve problem based on above syllabus
Text Books :1. Engg. Mechanics by Timoshenko and Young
2. Engg. Mechanics by Bhavikatti3. Engg. Mechanic by Beer and Jonhston4. Engg. Mechanics by A.K. Tayal5. Engg. Mechanics by S.M. Dumne
Reference Books:1. Engg. Mechanics by Nelson2. Engg. Mechanics by Singer3. Engg. Mechanics by Hibbler
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ELEMENTS OF MECHANICAL ENGINEERING
F.E. SEMESTER II
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks
____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
Objective:The subject Elements of Mechanical Engineering deals with the basic mechanical
devices and their applications. Being an engineering graduate of any discipline, he should
know about the basic mechanical devices and how to operate them in day to day lifeefficiently. The subject covers the power consuming devices like air conditioners,refrigerators, air compressors, power developing devices like I.C. engines, turbines andthe simple machining processes like drilling, milling, grinding, casting etc.
Also everyone should know the different types of conventional as well as non-conventional energy sources and their harvesting to avoid energy crisis.
Unit I Sources of Energy: (04 Hrs)Conventional energy sources: Thermal, Nuclear, Hydraulic power plants. Nonconventional energy sources: Wind, Solar, Tidal, Geothermal, Ocean, Wave energies,Energy crises and saving of energy.
UnitII Fundamentals of Thermodynamics: (10 Hrs.)Thermodynamic systems, properties and processes, quasistatic process. State and pathfunction, thermodynamic equilibrium, pure and working substances, Temperature, Zerothlaw of thermodynamics, measurement of temperature, mercury thermometers. Pressureand its measurements (simple numerical treatment) heat and work.First law of thermodynamics: Law of conservation of mass and energy, Joulesexperiment, PMMI, first law of cyclic and non cyclic process, concept of internal energy,specific heat, enthalpy, entropy, limitation of first law and statements of second law ofthermodynamics.
Unit III Ideal gases: (08 Hrs)Definition, laws of ideal gases, characteristics gas equation, universal gas constant,various ideal gas processes for non flow system to calculate internal energy, heat transfer,work transfer, enthalpy with numerical treatment.
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UnitIV Introduction to thermal machines: (06 Hrs)i) Working principle and applications of Power developing devices: I.C. Engines
(Two stroke, Four stroke) comparison, constant pressure gas turbine, waterturbine (Pelton turbine only).
ii) Working principle & application of Power consuming devices: Air compressor,
house hold refrigerator, window air conditioner.
Unit V Power transmission elements and drives: (06 Hrs)Introduction to velocity ratio, belts, types of belts, pulleys, working and applications,gear, gear tooth terminology,(limited to spur gear), types of gears and their applications,clutches, single plate clutch.
UnitVI Manufacturing processes: (06)Working principle and applications of Casting, Rolling, Welding, Brazing and Soldering,machining processes on lathe machine, drilling machine, milling machine, grindingmachine.
Term- Work:Term work shall consist of demonstration and operation on (any eight devices/machines).i.) Study and demonstration of 2/4 Stroke engine.ii.) Study and demonstration of House hold refrigerator.iii.) Study and demonstration of Air conditioneriv.) Study and demonstration of Air compressorv.) Study and demonstration of Boilers: (one H.P. and one L.P.)vi.) Study and demonstration of Lathe machinevii.) Study and demonstration of Grinding machineviii.) Study and demonstration of Milling machineix.) Study and demonstration of Drilling machinex.) Study and demonstration of Shaping machine
Text Books:
1. Thermal Engineering by R.K. Rajput -Laxmi publications2. Thermal Engineering by D.S. Kumar3. Thermodynamics by P.K. Nag - Tata McGraw hill4. Manufacturing processes by R.K. Jain Khanna publications5. Machine Design by V.B.Bhandari -Tata McGraw hill6. Workshop technology by Hajara Choudhary,Bose7. Thermal Engineering by P.L.Ballaney Khanna publications8. Thermodynamics by Yunus A. Cengel, Machael A Boles
Tata McGraw hill Publication9. Workshop Technology Vol.-I, II, III by Chapman10. Heat Engine Vol.-I, II, III by R.C. Patel & Karamchandani11. Thermodynamics by Zeemansky
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FUNDAMENTALS OF COMPUTER PROGRAMMING
F.E. SEMESTER II
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks
____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
Course Objectives To make students aware of basics about computers, hardware software, operating
System. To study C language.
UNIT 1 Computer Fundamentals (6 Hrs)Introduction to computer, Hardware, Software, Programming process, Operating System,Algorithm and Flowchart.Language preliminaries, Variables and Expressions, Operators, Basic Input and outputstatements.
UNIT 2 Introduction to Data Structure: (6 Hrs) Number representation- integer, floating point, double precision, character, enumeratedata types, structures etc. Efficient representation of data.Control structures, Decision making statements, Loop constructs.
UNIT 3 Arrays (8 Hrs)Single and Multidimensional arrays, Strings, Initializing string, Arrays of strings, Stringhandling functions.Functions User defined and Library Functions, Function definition, Function call,Introduction to Pointer, Function parameters, Recursion, Passing array to function.
UNIT 4 Pointer (6 Hrs)Basics of Pointer, Functions and Pointers, Strings and Pointers, Pointer arrays, Pointerand Functions, Dynamic memory allocation, Stacks, queues, linked list etc.
UNIT 5 Structure and Union- (8 Hrs)Definition and declaration, Structure within structure, Operations on Structures, Arrays ofStructures, Pointer to Structure, Passing Structure to functions, Unions.Introduction to Algorithms: Computational complexity, time and space complexity,Introduction to fast algorithms, Typical examples of fast computing such as addition ofnatural numbers, Factoring, Polynomial Multiplication etc.
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UNIT 6 Files (6 Hrs)File declaration, Opening, Closing, Writing, Reading data files and Random access files.Preprocessor - Features of preprocessors, Macro Expansion, File Inclusion, Conditionalcompilation.
Outcomes :By the end of the course Students will understand fundamentals of computer. Students will be comfortable with Linux/Unix Operating System and able to Write C
programs.
Text Books:i) K. R. Venugopal, Sudeep R. Prasad, Programming with C, Tata McGraw Hill.ii) Ram Kumar, Rakesh Agrawal, Programming in ANSI C, Tata McGraw Hill.iii) Yeshwant Kanetkar, Let Us C, bpb Publication.
Reference Books:i ) Kernighan Brian W. & Ritchie Dennis M. , The C ANSI C Programming
Language, Pearson Education Asia.ii) Herbert Schildt, C The Complete Reference, Tata McGraw Hill.iii) Ellis Horowitz Sahani and Satraj Sahni, Computer Algorithm, Galgotia Delhi.
Term Work:
Term Work should consist of a record in the form of a journal with at least 10 programsfrom the list given below. Record should be with algorithms, flowcharts and printouts of
the programs.
1 Study of computer system and its peripherals, CPU, Input Unit - Keyboard,Mouse, Joystick, Scanner, Output Unit- Monitor, Printer, Plotter.Storage Unit RAM, HDD, CDROM, LAN, Computer lab NetWork.
2 Study of UNIX/LINUX operating system, study of basic commands, vi editor,gcc.
3 Write a program to implement different loops in C.4 Write at least two programs using arrays.5 Write programs to do string operations such as copy, concatenate, reverse etc.6 Write a program using Structure and Union.
7 Write a program using pointer concept.8 Write at least three programs based on combination of array, pointer, structure,and function.
9 Write a program using File Handling concept.10 Write a program to draw line, circle and ellipse.11 Write a program using preprocessor.
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BASIC ELECTRONICS ENGINEERING
F.E. SEMESTER II
Theory paper . . . . . . . . 80 marksTest . . . . . . . . . . . . . . . 20 marksTerm Work 25 marks
____________________________Total . . . . . . . . . . . . . . 125 marks
Theory - 4 hrs / weekPractical - 2 hrs / week
PART-A
UNIT-I Semiconductor diodes and Applications: (7 Hrs)PN junction diode- V-I Characteristics, Specifications. Half-Wave & Full-Waverectifiers, equations for Idc, Vdc, Vrms, Irms, Efficiency & ripple factor. Zener Diode-Characteristics, specifications, Zener voltage regulator. LED-Characteristics, 7-SegmentLED display.
UNIT-II Transistors & other semiconductor devices: (07 Hrs)Characteristics & specifications of BJT, FET & MOSFET (enhancement type). CE, CB,CC Configurations. DC analysis, BJT as a switch. Single stage BJT amplifier. MOSFETas a switch. Power semiconductor devices-SCR, DIAC, TRIAC, characteristics &specifications. List of applications.
UNIT-III Operational Amplifiers: (06 Hrs)
Block diagram, parameters of ideal & practical op-amp. Concept of negative & positivefeedback, advantages of negative feed back. Applications- Inverting, non Inverting,difference, summing, differentiator, integrator.
PART-B
UNIT-IV Digital Electronics: (7 Hrs)Introduction to number system- Decimal number system, Binary, Octal & Hexadecimalnumber systems & its conversion. Addition & Subtraction. Boolean Algebra, LogicGates, Half-adder, Full-Adder. Technologies- SSI, MSI, LSI, VLSI. Flip-flops,Introduction to Shift Registers & Counters.
UNIT-V Communication Systems: (7 Hrs)IEEE frequency spectrum, Block Diagram of communication system, Need forModulation, AM & FM Techniques, modulation index, Block diagram of AM & FMTransmitter, Super heterodyne receiver, Introduction to Mobile communication, Satellitecommunication & RADAR.
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UNIT-VI Transducers: (6 Hrs)Classification of Transducers. Study of Transducers like displacement, Temperature,Pressure & Optical transducers. Study of Digital thermometer, Weighing machine, PIDcontroller, data logger & Digital optical encoder. Study of CRO & Multi-meter
List of Experiments.1. Study of Active and Passive Components.2. Study of controls of C.R.O.3. V-I Characteristics of Rectifier Diode & Zener Diode.4. Half Wave & Full Wave Rectifier.5. BJT Characteristics/ Single Stage CE Amplifier.6. Inverting & Non Inverting Amplifier Using Op-Amp. (741).7. Study of Logic Gates.8. Verification of Truth Table of Flip-Flops / Half Adder & Full Adder.9. Study of Amplitude Modulation & Demodulation.10. Soldering practice & Study of soldering Techniques.
Books:1. Electronic Devices & Circuits - David A Bell, PHI Publication,
New Delhi 2004.2) Art of Electronics - Paul Horowitz, Cambridge LPE.3) Electrical & Electronics & Computer Engineering for Scientists and Engineers
Second Edition- K.A. Krishnamurthy & M.RRaghuveer- New Age International Publishers (Willey Eastern) 2001.
4) Electronic Communication Systems-George Kennedy, TMH 4 th Edition.
Reference Books:1) Digital Electronics. An Introduction to Theory & practice-William.H. Gothmann,
PHI, Second Edition.2) Electronics Devices and Circuits. An Introduction-Allen Mottershid,PHI3) Electronic Instrumentation-H.S Kalsi, Second Edition, McGraw-Hill publication.4) Mobile Cellular Telecommunication- W.C.X. Lee, McGraw Hill Publication.5) Basic Electronics ------Bernald Grob.6) Electronic Principles----Malvino.
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Swami Ramanand Teerth Marathwada University, Nanded
First Year Engineering
Revised Syllabus
For Group-I
(Revision 2008)
S.No.
Subject Theoryper
Week
Tutorial / Practical
Theory Test TermWork
Total
Part I1. Engineering Mathematics-I 4 1 80 20 -- 100
2. Engineering Physics 4 2 80 20 25 125
3. Engineering Drawing 4 4 80 20 50 150
4. Elements of Electrical
Engineering
4 2 80 20 25 125
5. Elements of Civil &Environmental Engineering
4 2 80 20 25 125
6. Workshop -- 04 -- -- 50 50
Total 20 15 400 100 175 675
Part-II1 Engineering Mathematics-II 04 01 80 20 -- 100
2. Engineering Chemistry 04 02 80 20 25 125
3. Engineering Mechanics 04 02 80 20 25 125
4 Elements of MechanicalEngineering
04 02 80 20 25 125
5. Fundamentals of ComputerProgramming
04 02 80 20 25 125
6. Basic ElectronicsEngineering
04 02 80 20 25 125
Total 24 11 480 120 125 725
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Swami Ramanand Teerth Marathwada University, Nanded
First Year Engineering
Revised Syllabus
For Group-II
(Revision 2008)
S.No.
Subject Theoryper
Week
Tutorial / Practical
Theory Test TermWork
Total
Part I1. Engineering Mathematics-I 4 1 80 20 -- 100
2. Engineering Chemistry 4 2 80 20 25 125
3. Engineering Drawing 4 4 80 20 50 1504. Fundamentals of Computer
Programming
4 2 80 20 25 125
5. Elements of Civil &Environmental Engineering
4 2 80 20 25 125
6. Workshop -- 04 -- -- 50 50
Total 20 15 400 100 175 675
Part-II1 Engineering Mathematics-II 04 01 80 20 -- 100
2. Engineering Physics 04 02 80 20 25 125
3. Engineering Mechanics 04 02 80 20 25 125
4 Elements of MechanicalEngineering
04 02 80 20 25 125
5. Elements of ElectricalEngineering
04 02 80 20 25 125
6. Basic Electronics
Engineering
04 02 80 20 25 125
Total 24 11 480 120 125 725